US11666689B2
A system for hands-free nursing and breast pumping includes a breast compression device with a plurality of thermoformed fluid bladders designed to fit adjustably against each breast and inflate and deflate with minimal power requirements. The compression device and its controller fit inside of a nursing garment designed to receive the device and controller for optimal compression. The nursing garment and the compression device have openings over the nipples so that a breast pump flange can be inserted through them and used in a typical manner for the extraction of breast milk, thus increasing the amount of milk expressed.
US11666686B2
A composition, comprising: a physiologically-acceptable polydimethylsiloxane having a surface; and one or more normal C6-C20NR1R2 saturated amine, salt thereof, or combination thereof, in contact with the polydimethylsiloxane, the surface, or both, wherein R1 and R2 may be same or different and independently selected from H, —CH3, —CH2CH3, —CH2CH2CH3, or combination thereof.
US11666682B2
A method and kit for stopping cerebrospinal fluid (CSF) leaks, comprising penetrating and passing through a dural tissue an applicator to access an interior dural space, injecting from the applicator a fibrinogen-containing solution into said dural space, applying a sealing member containing a fibrinogen polymerizing agent onto an exterior surface of the dural tissue, and forming a polymerized fibrinogen or polymerized fibrin clot by contacting the injected fibrinogen-containing solution and the fibrinogen polymerizing agent.
US11666679B2
A scent adjustment system includes a scent emitter arranged to supply a scent material to a target space, a storage, and a controller. The storage stores sensory information in which an intensity of a smell of the scent material perceived by a person and a concentration of the scent material are associated with each other. The controller adjusts the concentration of the scent material supplied from the scent emitter based on the sensory information stored in the storage.
US11666667B2
Disclosed herein are urushiol-containing epicutaneous patches comprising a support material and a urushiol-containing film on a surface of the support material. A surface of the support material is coated with the urushiol-containing film. Also described herein are test panels comprising urushiol-containing epicutaneous patches of varying urushiol content. The test panels can be employed in methods to assess subject sensitivity to urushiol, to determine a dose-response relationship to varying doses of urushiol, and to assess efficacy of treatments to prevent or inhibit urushiol-induced contact dermatitis in a subject.
US11666665B2
Methods of editing target nucleic acids are provided using a guide RNA and a Cas9 protein to excise exons in a target gene and where the edited gene is expressed to produce a truncated polypeptide.
US11666663B2
Disclosed are nanostructures comprising a ribonucleic acid (RNA) scaffold comprising a hexameric tetrahedral core. The tetrahedral core may comprise four hexameric RNA nanorings linked together. Related pharmaceutical compositions, methods of modulating the expression of a target gene in a mammal, methods of treating or preventing a disease in a mammal, and methods of producing a hexameric tetrahedral RNA nanostructure are also disclosed.
US11666661B2
Provided herein, inter alia, are methods and compounds for targeted autophagy.
US11666656B2
Polymeric conjugates comprising a polymeric matrix having associated therewith an agent that down-regulates an activity or expression of a polypeptide associated with onset or progression of melanoma, and optionally and preferably, an additional agent that acts in synergy with said agent, are provided. Synthetic methodologies for preparing these conjugates and uses thereof in treating melanoma and other cancerous diseases are also provided.
US11666654B2
The present invention relates to HPMA-CBz copolymers and methods for treating certain diseases comprising administering the copolymers to a subject in need thereof.
US11666650B2
Immune compositions comprising (i) a respiratory syncytial virus (RSV) G polypeptide, which may be a modified G polypeptide relative to the wild-type counterpart, or a nucleic acid encoding such, and (ii) a solvent and one or more immune regulators, wherein the immune regulator(s) is dissolvable in the solvent. Also provided herein are methods for eliciting anti-RSV immune responses using the immune compositions disclosed herein and methods for producing the immune compositions.
US11666644B2
The disclosure relates to polypeptides and pharmaceutical compositions comprising polypeptides that find use in the prevention or treatment of cancer, in particular gastric cancer, lung cancer, melanoma and bladder cancer. The disclosure also relates to methods of inducing a cytotoxic T cell response in a subject or treating cancer by administering pharmaceutical compositions comprising the peptides, and companion diagnostic methods of identifying subjects for treatment. The peptides comprise T cell epitopes that are immunogenic in a high percentage of patients.
US11666643B1
A micronutrient composition comprises of vitamin C, vitamin D3, vitamin B1, vitamin B2, vitamin B3, vitamin B6, vitamin B9 and vitamin B12, magnesium, clove extract, grape extract, celery extract and L-arginine. This micronutrient composition supports critical cellular mechanisms involved in the relaxation of vascular smooth muscle cells important in maintaining healthy blood pressure.
US11666642B2
The present invention relates to compositions and methods for the regulated and controlled expression of proteins. Methods for inducing anti-cancer immune responses in a subject are also provided.
US11666641B2
The present invention provides a non-naturally occurring composition comprising a CRISPR nuclease comprising a sequence having at least 95% identity to the amino acid sequence of SEQ ID NO: 3 or a nucleic acid molecule comprising a sequence encoding the CRISPR nuclease.
US11666640B2
Neonatal seizure is different from adult seizure, and many anti epileptic drugs that are effective in adults often fail to treat neonatal seizure. Gluconic acid, a natural organic acid enriched in fruits and honey, and the glucose oxidase enzyme, is shown herein to potently inhibit neonatal epilepsy both in vitro and in vivo. Sodium gluconate is shown to inhibit epileptiform burst activity in cell cultures and protect neurons from kainic acid-induced cell death. Sodium gluconate also inhibited epileptiform burst activity in brain slices in a manner that was much more potent in neonatal animals than in older animals. Consistently, in vivo EEC recordings also revealed that sodium gluconate inhibited the epileptic seizure activity in a manner that was much more potent in neonates than in adult animals. Mechanistically, sodium gluconate inhibits voltage-dependent CLC-3 C1− channels both in neuronal cultures and in hippocampal slices. Together, these data suggest a novel antiepileptic drug gluconate that potently inhibits neonatal seizures through blocking CLC-3 C1− channels.
US11666621B2
The present invention relates to an antimicrobial composition comprising a grape extract, a lemon extract, and a lavender extract. Not only providing excellent antiviral, antibacterial, and antifungal effects but also being derived from natural products, the composition of the present invention can be used safely without toxicity and side effects and can find various applications in medicinal products, foods, cosmetic products, quasi-drugs, etc.
US11666619B2
Provided are a composition for treating atopic dermatitis including an herbal medicine mixed extract, and more particularly, a pharmaceutical composition, a food composition, a quasi-drug composition, and a cosmetic composition for preventing or treating atopic dermatitis, each composition including a mixed extract of Phellodendri Cortex, Schizonepetae Spica, Sophorae Radix, Glycyrrhizae Radix, Liriopis Tuber, and Radix Rehmanniae Exsiccate or a fraction thereof, and a method of treating atopic dermatitis using the pharmaceutical composition. The complex herbal medicine extract of the present invention may prevent, ameliorate, and treat atopic dermatitis to a degree similar or superior to those of the known therapeutic agents for atopic dermatitis.
US11666617B2
Disclosed herein are compositions having standardized potencies for use in the treatment of warts. Methods of treating a common wart comprising administering one or more intralesional injections of compositions having standardized potencies to a patient in need thereof are also disclosed. Further disclosed are methods of treating a non-common wart administering one or more intralesional injections of compositions having standardized potencies to a patient in need thereof.
US11666611B2
Described herein are methods and compositions for the use of treating and/or preventing Clostridium difficile infections, including recurrent C. difficile infections, in a subject. Aspects of the technology relate to administering to a subject in need thereof a composition comprising a defined therapeutic microbiota comprising, e.g. Clostridial species. Also described herein are biomarker profiles, including a biomarker profile comprising two groups of Clostridial species, that is predictive of the likelihood of recurrent C. difficile infection and/or susceptibility to initial C. difficile infection.
US11666610B2
A probiotic formulation is provided including one or more bacteria, bacterial strains or bacterial species of the genus Veillonella, genus Faecalibacterium, genus Phascolarctobacteria, genus Oscillospira, genus Ruminococcus, genus Bacteroides, genus Blautia, family Christensenellaceae, genus Dialister, or phylum cyanobacteria.
US11666608B2
Provided is a method for preventing, alleviating or treating an ocular disease including administering a composition containing vesicles derived from Micrococcus luteus as an active ingredient wherein the vesicles are delivered to the central nervous system including the retina through the blood-brain barrier (BBB); when epithelial cells and macrophages were treated with the vesicles, not only is the secretion of an inflammatory mediator by a biological causative factor considerably inhibited, but also NLRP3 protein expression by a biological causative factor is inhibited; and when the vesicles are administered to a rabbit model with an ocular disease caused by oxidative stress, retinal degeneration is significantly inhibited, thus the vesicles derived from Micrococcus luteus can be used for a composition for preventing, alleviating or treating an age-related ocular disease and an inflammatory ocular disease, including a pharmaceutical or health functional food composition.
US11666598B2
A method of treating infection and/or inflammation in a subject includes steps of providing a polyester biomaterial comprising diol monomers and at least first carboxylate monomers, wherein the first carboxylate monomers are itaconate; and administering the polyester biomaterial to the subject. The polyester biomaterial can be in the form of a biomimetic, and characterized by hydrolytic degradability. The polyester biomaterial may further include second carboxylate monomers. The biomaterial can be poly(itaconate-co-citrate-co-octanediol).
US11666591B2
Pharmaceutical compositions comprising a first anti-acne compound, a second anti-acne compound, and an anti-photoaging compound are described. Methods for the treatment of acne and photoaging using the compositions are also described.
US11666587B2
The invention relates to novel veterinary compositions comprising torasemide or a pharmaceutically acceptable salt thereof and administered in domestic animals according to a predetermined dosage for symptomatic treatment of pulmonary edema associated with heart failure.
US11666580B2
The present disclosure provides combination therapy comprising a BET inhibitor and a protein phosphatase 2A (PP2A) activator, a B-cell lymphoma-2 (Bcl-2) inhibitor, a B-cell lymphoma-extra large (Bcl-xl) inhibitor, a casein kinase 2 (CK2) inhibitor, and/or a mediator complex subunit 1 (MED1) for cancer. The combination therapy is expected to be synergistic in treating the cancer, compared to the monotherapy. Methods for identifying a subject having a cancer that is resistant to or at risk of developing resistance to bromodomain and extra terminal (BET) inhibitor therapy are also provided.
US11666572B2
In one aspect, the present invention provides a method for treating or ameliorating the effects of a HER2 positive cancer in a subject. In some embodiments, the method comprises administering a combination therapy comprising an anti-HER2 antibody and tucatinib. In some embodiments, the method further comprises administering a chemotherapeutic agent (e.g., an antimetabolite) to the subject. Pharmaceutical compositions and kits are also provided herein.
US11666571B2
The present invention provides methods for treating and/or preventing inflammatory diseases of the gastrointestinal tract with one or more compounds, or pharmaceutically acceptable salts thereof, disclosed herein, and the use of compositions comprising the same.
US11666569B2
An HDAC6-specific inhibitor (i.e., a compound of Formula I or II) is shown to reduce the pathogenesis associated with polycystic disease. Administration of an HDAC6-specific inhibitor attenuated many of the symptoms characteristic of polycystic liver disease including cyst formation, cyst growth and cholangiocyte proliferation. Treatment with a HDAC6-specific inhibitor also increased the amount of bile duct acetylated tubulin and β-catenin phosphorylation and/or acetylation while reducing bile duct β-catenin synthesis. These results demonstrate that HDAC6 is overexpressed in cystic cholangiocytes and that its pharmacological inhibition reduces cholangiocyte proliferation and cyst growth.
US11666563B2
The present invention aims to find a pharmaceutical preparation which treats or prevents glaucoma or ocular hypertension and is effective for patients with inadequate efficacies of glaucoma or ocular hypertension therapeutic agents. It has been found that omidenepag, an ester thereof, or a salt thereof has an excellent intraocular pressure lowering efficacy on patients with inadequate efficacies of other glaucoma or ocular hypertension therapeutic agents. Therefore, the omidenepag, the ester thereof, or the salt thereof of the present invention is useful as a pharmaceutical preparation which can treat or prevent glaucoma or ocular hypertension even in patients with inadequate efficacies of other glaucoma or ocular hypertension therapeutic agents.
US11666562B2
Disclosed are methods and compositions for treating an infection by an enveloped virus in a patient in need thereof. The methods include administering to the patient a compound that inhibits or blocks release of the enveloped virus from an infected cell. As such, the disclosed methods include methods of inhibiting or blocking release of an enveloped virus from a cell. The disclosed methods may include administering to the patient a prazole-type compound having a substituted (pyridin-2-yl)methylsulfinyl-benzimidazole core.
US11666554B2
The present invention relates to use of a carbonate compound of chemical formula 1, or a pharmaceutically permissible salt, solvate or hydrate thereof, for prevention, alleviation or treatment of visceralgia, or pain arising from visceral disease.
US11666547B2
Disclosed are methods for treating a psychiatric disease or disorder and/or symptoms thereof in a subject in need thereof, the method comprising administering to the subject an effective amount of an antagonist of the Na+-K+-2Cl— cation-chloride cotransporter isoform 1 (NKCC1) for treating the psychiatric disorder and/or the symptoms thereof in the subject. The methods further may include administering to the subject a dopamine D1 agonist and/or a GABAA agonist, optionally at a subeffective dose, where co-administering the antagonist of NKCC1 improves the efficacy of the dopamine D1 agonist and/or the GABAA agonist, optionally at the subeffective dose, for treating the psychiatric disease or disorder and/or symptoms thereof.
US11666546B2
GHB drug delivery systems comprising a floating interpenetrating network (IPN) are provided. The pharmaceutical compositions contain at least one IPN forming system, at least GHB drug, and at least one gas generating agent, such that upon oral ingestion of the compositions, a floating IPN is formed in situ. These floating IPN provide extended release of the GHB drug entrapped therein for at least about 3 hours.
US11666543B1
Disclosed herein are compositions and methods for delivering cannabidiol to subject in need of hypertension treatment. The disclosed compositions are orally delivered. Further disclosed are kits comprising the disclosed compositions as part of a method of delivering the cannabidiol-containing compositions.
US11666542B2
The present invention belongs to the field of medicine, and relates to use of cannabidiol (CBD) in the treatment of pulmonary arterial hypertension. The CBD can be used as the only active ingredient or combined with other active ingredients to prepare a medicament for treating pulmonary arterial hypertension. Specifically, the present invention relates to use of any one selected from (1) to (3) in the preparation of a medicament for treating and/or preventing pulmonary arterial hypertension: (1) CBD, (2) a plant extract containing the CBD; and preferably, the plant extract is a cannabis extract, and (3) a pharmaceutical composition containing the CBD and one or more pharmaceutically acceptable adjuvants. In the present invention, upon experimental researches, it has found that the CBD has the function of inhibiting pulmonary arterial hypertension, and is especially suitable for treating the pulmonary arterial hypertension caused by hypoxemia.
US11666538B2
The invention provides an oral solid formulation comprising (a) a controlled release component comprising a core comprising levodopa, wherein the core is coated with a layer of a muco-adhesive polymer and externally coated with a layer of an enteric polymer; and (b) an immediate release component comprising carbidopa and levodopa.
US11666532B2
Methods and compositions are provided for treating a patient having a bleeding disorder during or after a dental procedure to reduce bleeding or need for factor replacement therapy. Aqueous pharmaceutical compositions are provided comprising tranexamic acid, sodium carboxymethyl cellulose, Tween® 20, and menthol wherein the composition exhibits good long term stability, little to no discoloration over time, and reduced bitterness compared to a control solution of tranexamic acid and water.
US11666529B2
Disclosed are methods involving the therapeutic use of human PRG4 (lubricin) protein, to improve vision, to reduce aberrations such as impaired night vision, halos, and glare, to improve the stability of the tear film, and to homogenize the refractive index of the surface of the eye.
US11666525B2
A method for treating skin of a person is disclosed. The method can include topically applying to the skin of the person a composition comprising an effective amount of an aqueous, alcoholic, or aqueous-alcoholic extract from Sequoia sempervirens, Geranium oil, panthenol, citric acid, and glycerin, wherein the composition increases antioxidant activity in the skin and/or increases skin moisture content.
US11666520B2
The present invention relates to compositions for and methods of retarding hair loss or facilitating hair growth comprising a hair growth active, a mixture of C12-C15 alkyl lactates and a viscosity modifying agent comprising at least one cellulose and/or a cellulose derivative. Clear compositions are also disclosed.
US11666514B2
A fibrous structure with a plurality of fibrous elements and agglomerated particles. The agglomerated particles can be matrix particles containing perfume.
US11666505B2
The present invention is a method and device for inducing or promoting a meditative state.
US11666504B1
The compression sleeve with massage rollers is a medical device. The compression sleeve with massage rollers applies a compressive pressure to an appendage of a patient. The compression sleeve with massage rollers is a mechanical device. The compression sleeve with massage rollers generates a kneading action that massages the appendage of the patient. The compression sleeve with massage rollers comprises a compression structure, a plurality of massage mechanisms, and a control circuit. The plurality of massage mechanisms and the control circuit attach to the compression structure. The control circuit electrically connects to the plurality of massage mechanisms. The control circuit controls the operation of the plurality of massage mechanisms.
US11666496B2
A chair includes a frame unit including a seat frame, a leg rest that is pivotally mounted to the seat frame, and a rest adjusting mechanism that is connected between the leg rest and the seat frame. The rest adjusting mechanism is convertible between an unlocked state, where the leg rest is permitted to pivot relative to the seat frame, and a locked state, where the leg rest is not permitted to pivot relative to the seat frame.
US11666494B2
An emergency cot includes a litter frame, a base, and a lift assembly supporting the litter frame relative to the base. The lift assembly includes load bearing members pivotally coupled to the litter frame by head-end upper pivot connections and foot-end upper pivot connections and to the base by head-end lower pivot connections and foot-end lower pivot connections for raising or lowering the base or the litter frame with respect to the other. The foot-end upper pivot connections or head-end upper pivot connections are movable toward or away from the longitudinal axis of the litter frame to allow one end of the litter frame to be tilted upwardly.
US11666481B1
In various embodiments, a laser is scanned across biological tissue to alter the characteristics of the tissue. To alter the optical characteristics of a cornea, the laser is scanned in an annular pattern over a region having a ratio of the outer diameter of the region to the inner diameter of the region. The laser may also be used to irradiate cartilage in joints to treat osteoarthritis.
US11666480B2
Refers to equipment (E), the objective of which is to take extremely cold air to a cap (1) comprised by a cylindrical duct (2), located in the upper part of the cylindrical structure (3) of the cap (1) which is coated by a thermal foam (ESP) and any given material (M), wherein the cylindrical duct (2) overlaps a sprinkler (ASP), which is located in the inner part (I) of the cylindrical structure (3) of the cap (1), further, the cap (1) comprises fins (4) which form an angle of 90° in relation to the inner walls (I) of the cylindrical structure (3) of the cap (1), which finally also has reinforcement ribs (5) and a circular support (6) endowed with a central hollow (7) circular and/or oval coated by a thermal foam (ESP) throughout its perimeter.
US11666476B2
The device relates to methods and devices for the treatment of obstmctive sleep apnea syndrome.
US11666474B2
An external female urinary device includes a connecting and urine collecting component (CUCC) and a urine directing and discharging component (UDCC) configured to connect with the CUCC. The CUCC tapers from a larger orifice to a smaller orifice. The CUCC has a ring defining the larger orifice. The ring is made of a material capable of adhering to urethral orifice surrounding skin (UOSS) as well as to the inner facing surfaces of the labia minora and/or the labia majora after the CUCC is pressed against that UOSS. The ring remains adhered to the UOSS without requiring an external force for keeping the ring in contact with that skin.
US11666472B2
A multi-axis rotation control ankle brace, wherein the direction and magnitude of force can be controlled around three axes of the ankle joint through an adjustable tensioning apparatus. The device may be applied to address conditions such as chronic ankle instability, foot drop, or osteoarthritis by providing such forces around the joint as an external-muscle tendon system to improve function, reduce pain, or restore mobility of the user. While more are contemplated herein, five preferred embodiments are specifically disclosed in the current application. Three preferred embodiments comprise a proximal portion and a distal portion, wherein the proximal portion is anchored above the ankle joint and houses, in aspects, the adjustment mechanism. The proximal portion is connected to the distal portion by tensioning or compressive elements, through which forces can be controlled by the user via the adjustment mechanism. In other preferred embodiments, the device is comprised of one continuous mesh, sock or sleeve through which tension can be controlled by the user. In other preferred embodiments, the device is personalized to the user through multiple aspects including user-enabled adjustment of forces around the joint. The device may be customized by 3D printing a device based on a digital scan, and therefore conforms to the user's ankle and foot.
US11666470B2
A retrieval device comprising a hook assembly and a capsule assembly. The hook assembly has an attachment feature at a first end. The capsule assembly includes a capsule, a capsule shaft, and a handle connected in series and defining an inner bore. The capsule has a first end defining an opening. The inner bore of the capsule assembly is configured to slidably receive the hook assembly. The handle has a central portion, a first extension portion attached to the capsule shaft, and a second extension portion with a hook assembly lock at a second end. The hook assembly lock is configured to lock the hook assembly to the second extension portion. The second extension portion is configured to pull the hook assembly relative to the capsule shaft, and the first extension portion is configured to push the capsule shaft relative to the hook assembly along the central longitudinal axis.
US11666468B2
A system for delivering an endolumenal device through an endoscope includes a delivery tool and an adaptor. The delivery tool has an elongate tube configured to hold a portion of the endolumenal device therein and a first connecting feature on a distal end of the elongate tube. The adaptor is configured to attach to a handle of the endoscope. The adaptor includes a channel therethrough and a second connecting feature configured to mate with the first connecting feature of the delivery tool. The elongate tube of the delivery tool is configured to align with the channel of the adaptor when the first and second connecting features are mated.
US11666465B2
Described herein are flexible implantable occluding devices that can, for example, navigate the tortuous vessels of the neurovasculature. The occluding devices can also conform to the shape of the tortuous vessels of the vasculature. In some embodiments, the occluding devices can direct blood flow within a vessel away from an aneurysm or limit blood flow to the aneurysm. Some embodiments describe methods and apparatus for adjusting, along a length of the device, the porosity of the occluding device. In some embodiments, the occluding devices allows adequate blood flow to be provided to adjacent structures such that those structures, whether they are branch vessels or oxygen-demanding tissues, are not deprived of the necessary blood flow.
US11666460B2
Surgical instruments, systems and methods are described for selecting a size and cutting bone for inserting of an intervertebral disc prosthesis. The surgical instrument includes a combined intervertebral disc prosthesis sizing trial and a slot or channel cutter which is movable with respect to the sizing trial.
US11666454B2
Improved bone plate systems are described herein. In some instances, a bone plate system can include a base plate, at least one retainer plate, and at least one spacer. The at least one retainer plate is configured to reside on the base plate in a free floating manner and can receive at least one fastener to secure the retainer plate to the at least one spacer, thereby providing a plate system that attaches to a spacer. In other instances, a bone plate system can include a base plate having one or more push plates that can engage at least one spacer.
US11666446B2
A bone implant for enclosing bone material is provided. The bone implant comprises a mesh having an inner surface and an outer surface opposing the inner surface. The inner surface is configured to receive a bone material when the inner surface of the mesh is in an open configuration. A plurality of projections are disposed on or in at least a portion of the inner surface of the mesh. The plurality of projections extend from at least the portion of the inner surface of the mesh and are configured to engage a section of the inner surface of the mesh or a section of the outer surface of the mesh or both sections of the inner and outer surfaces of the mesh in a closed configuration so as to enclose the bone material. A tray, a kit and a method of making the bone implant are also provided.
US11666441B2
Methods and devices for transvascular prosthetic chordae tendineae implantation are disclosed. A catheter is advanced into the left atrium. From an atrium side, a leaflet anchor having a leaflet suture is secured to the mitral valve leaflet. A ventricular anchor is anchored to the wall of the ventricle to secure the ventricular wall to a ventricle suture. The leaflet suture and the ventricle suture may be tensioned and connected by a suture lock to form an artificial chordae. The suture lock has a body with a suture path extending therethrough. A wall in the housing is movable to reduce the cross section of the suture path. A drive mechanism advances the movable wall to clamp sutures extending through the suture path, in response to rotation of a coupling on the housing.
US11666440B2
A device structured to suppress mitral regurgitation by restricting prolapse of a mitral valve leaflet and including a base correspondingly dimensioned to the mitral valve and including a central portion, structured to allow blood flow there through and a peripheral portion or ring connected to the central portion in substantially surrounding relation thereto. An operative position of the base includes the central portion disposed in overlying, movement restricting relation to at least one of the valve leaflets and the ring concurrently anchored adjacent or directly to the native annulus of the mitral valve. The physical characteristics of the base facilitate its movement with and conformance to the mitral valve during diastole and systole cycles of the heart.
US11666437B2
A delivery cylinder for a prosthetic implant can include a first tubular portion and a second tubular portion. The second tubular portion has a plurality of strut members coupled to the first tubular portion that define a volume for containing the prosthetic implant in a radially compressed state. The strut members can include respective flex regions configured such that application of force to the strut members causes deformation of the flex regions and corresponding radially inward or outward movement of the strut members relative to a longitudinal axis of the delivery cylinder between an expanded configuration and a contracted configuration.
US11666419B2
A system for dental implant restoration is provided. It includes universal aligning adaptors and prosthetic components having co-operable indices, which together form a translational, integrating system which aligns, synchronizes, and references the prosthetic components about an implant's central axis of rotation. Rotation of an adaptor about a prosthetic component, with its reference point becoming aligned to a predetermined reference point on the prosthetic component, followed by the rotation of the adaptor/prosthetic component assembly about the implant, situates the prosthetic component in a predetermined position such that all other prosthetic components become synchronized to the adaptor's reference point. The prosthetic component is mechanical for clinical or lab bench use, or is virtual for restoration design in a software program, prior to milling prosthetic abutments or devices. Abutments, healing caps and screw access holes are realigned to preferred positions and synchronized with minimal deviation from the ideal direction.
US11666413B2
A tool guide may be used with a computer-assisted medical device. The tool guide comprises an elongated body comprising a first end and a second end opposite the first end. The tool guide also comprises a joint attached to the first end of the elongated body and a mounting arm coupled to the elongated body via the joint. The tool guide also comprises a tool sleeve attached to the second end of the elongated body. The mounting arm is configured to be attached to a first articulated arm of the computer-assisted medical device, and the tool sleeve is adapted to receive an end effector attached to a second articulated arm of the computer-assisted medical device.
US11666409B2
One variation of a method for monitoring needle consumption in a surgical space during a surgery includes: accessing a sequence of images captured by a camera facing an inventory field within the surgical space; scanning the sequence of images for needle packages and needles; in response to detecting entry of a needle package into the surgical space in a first image, logging entry of the needle package, labeled as sterile, into the inventory field at a first time and incrementing a sterile packaged needle counter for the needle package according to a first quantity of sterile needles associated with a type of the needle package; and, in response to detecting removal of a first needle from the inventory field in a second image, incrementing a deployed needle counter at a second time succeeding the first time and decrementing the sterile packaged needle counter.
US11666406B2
The present invention is a method for controlling a Davinci surgical device. Firstly, controlling an operation part of a remote operation device to enter the inner of a body for executing a surgical operation. Then, an image capturing unit captures a plurality of corresponding surgical images to a control device, and the control device obtains a first torque component, a second torque component and an element action of the remote surgical device according to the surgical images to operate an output strength of the remote surgical device for further generating corresponding strength feedback by the output strength. Thus, the user can get the control status of the remote surgical device to prevent accidental iatrogenic injury from over-force and to proceed with the operation with improved accuracy.
US11666398B2
A system comprises a flexible instrument, a first user input device spaced from the flexible instrument, and a second user input device including a first state and a second state. The system further comprises a control system configured to, based on an input received from the first user input device, control an orientation of the flexible instrument. The control system is further configured to, based on an input received from the second user input device, adjust a stiffness of the flexible instrument. The stiffness of the flexible instrument is lower when the second user input device is in the first state than when the second user input device is in the second state.
US11666397B2
A medical system comprises a memory for receiving intraoperative external image data for at least a portion of a patient anatomy. The memory further receives intraoperative pose data for a medical instrument of the medical system. The medical system further comprises a processor configured for generating a first model of the patient anatomy. The processor is further configured for, based on the intraoperative external image data, intraoperatively generating an updated model of the patient anatomy that is different from the first model. The updated model includes an anatomical structure that is not present in the first model.
US11666393B2
Certain aspects relate to systems and techniques for compensating for compression in elongated shafts of medical instruments. Medical instruments can include elongated shafts that may experience compression when articulated. The medical instruments can be attached to instrument positioning devices that are configured to move the medical instruments to compensate for this compression. For example, an instrument positioning device can advance a medical instrument to compensate for compression in an elongated shaft of the medical instrument. In some instances, the amount of compression is determined using a compression compensation parameter. The compression compensation parameter can be determined during a calibration process of the medical instrument.
US11666390B2
A system for planning pedicle screw fixation includes: a C-arm configured to capture a spinal image of a patient; an insertion path provider configured to provide an entry point and an insertion endpoint of a pedicle screw on a C-arm image; a registrator configured to calculate spatial coordinates of the entry point and the insertion endpoint based on a reference coordinate system; a guider configured to determine an insertion position of the pedicle screw based on the spatial coordinates of the entry point and the insertion endpoint, and guide a probe to be inserted toward the entry point according to the insertion positions; and a screw determiner configured to determine a length condition of the pedicle screw by obtaining coordinates of a start point at which the probe is inserted and becomes in contact with a bone.
US11666380B2
Apparatus, systems, and methods for achieving thermally-induced renal neuromodulation by intravascular access are disclosed herein. One aspect of the present application, for example, is directed to apparatuses, systems, and methods that incorporate a treatment device comprising an elongated shaft. The elongated shaft is sized and configured to deliver a thermal element to a renal artery via an intravascular path. Thermally-induced renal neuromodulation may be achieved via direct and/or via indirect application of thermal energy to heat or cool neural fibers that contribute to renal function, or of vascular structures that feed or perfuse the neural fibers.
US11666370B2
A method of treating or preventing acute respiratory distress syndromes (ARDS) includes advancing a cryogenic treatment element into a target bronchus of a mammal and exchanging cryogenic energy between the target bronchus and the cryogenic treatment element for a predetermined period of time until a target temperature of the target bronchus is reached to cause neuropraxia of nerves within the target bronchus.
US11666367B2
Guiding devices and methods are disclosed that comprise a detachable guide pin. The guiding devices may be driven into a bone to place the detachable guide pin within the bone. Once placed in the bone, the guide pin can be used to guide a surgical device into the bone.
US11666360B2
A glaucoma treatment system includes a glaucoma drainage device having a flexible tube with distal and proximal ends, and an inserter with a filament that extends beyond the distal end of a rigid elongate member (e.g., rod or inserter tube). The filament is configured to detachably couple a distal portion of the drainage device tube to the elongate member of the inserter. The filament may extend through a wall of the distal portion of the drainage device tube. The filament and elongate member of the inserter can be configured for relative movement to detach the drainage device tube from the inserter. The elongate member can define an internal channel, and the filament can be configured for axial movement in this channel so that the filament may move toward the proximal end of the elongate member to detach the drainage device tube from the inserter. Other tools are described and claimed.
US11666356B2
Some embodiments provide a soft tissue device, such as a transverse carpal ligament cutting device having one or more balloons that are deflated when the device is in an inactive position and are inflated when the device is in an active position. Other embodiments provide a soft tissue cutting method, such as a method of cutting a transverse carpal ligament that uses a soft tissue cutting device.
US11666353B2
A surgical instrument has an ultrasonic blade that connects to a distal end of an ultrasonic waveguide. A clamp arm assembly is moveable from an opened position for receiving a tissue, toward a closed position for clamping the tissue. A clamp arm actuator connected to the clamp arm assembly directs the clamp arm assembly from the opened position toward the closed position. An outer sheath surrounds at least a portion of the ultrasonic waveguide. The outer sheath includes a cover removably received against a sheath body, and a sheath securement feature able to detachably couple the cover to the sheath body such that the cover can be detached from the sheath body for accessing the ultrasonic waveguide within the outer sheath.
US11666350B2
Retrieval of material from vessel lumens can be improved by electrically enhancing attachment of the material to the thrombectomy system. The system can include a catheter having a distal portion configured to be positioned adjacent to a thrombus in a blood vessel, an electrode disposed at the distal portion of the catheter, and an interventional element configured to be delivered through a lumen of the catheter. The electrode and the interventional element are each configured to be electrically coupled to an extracorporeal power supply.
US11666342B2
An end effector for a surgical clip applier includes an elongate body, first and second jaw members extending out a distal end of the body, and a clip track provided within the body and containing one or more surgical clips, each surgical clip including a crown and a pair of legs extending longitudinally from the crown and diverging from each other at a diverging opening angle. A pre-forming region is defined by the first and second jaw members to receive and deform the one or more surgical clips from a first state, where the pair of legs diverge at the diverging opening angle, and a second state, where the diverging opening angle is minimized and the one or more surgical clips are prepared to be received by the first and second jaw members and crimped.
US11666339B2
A surgical stapling instrument includes an anvil defining a plurality of staple forming pockets and a stapling head assembly configured to drive a plurality of staples against the staple forming pockets of the anvil. The stapling head assembly comprises a coupling member configured to actuate the anvil relative to the stapling head assembly, a firing assembly configured to drive the plurality of staples against the staple forming pockets of the anvil, and a deck member. The deck member includes a deck surface extending radially between an inner circular edge and an outer circular edge, and a plurality of staple openings extending through the deck surface. The plurality of staple openings define at least one cross shape.
US11666334B2
A loading unit for use with a surgical stapling apparatus is provided and includes a tool assembly having a cartridge assembly and an anvil assembly that are movable in relation to one another; a surgical buttress releasably secured to a tissue contacting surface of the anvil assembly and/or the cartridge assembly, wherein each surgical buttress is secured to the anvil assembly and/or the cartridge assembly by at least one anchor; a release assembly associated with the anvil assembly and/or the cartridge assembly; and a drive assembly slidably translatable through the tool assembly between proximal and distal positions, wherein the drive assembly actuates the release assembly to thereby release the anchor to free the surgical buttress from the anvil assembly and/or the cartridge assembly.
US11666332B2
A surgical instrument comprising a housing, a shaft, an end-effector, a cutting member, and a control circuit is disclosed. The housing comprises a motor. The end-effector comprises a first jaw, a second jaw movable relative to the first jaw, an anvil, and a staple cartridge comprising staples, driver elements, and a sled configured to eject the staples toward the anvil. The sled is movable between a proximal unfired position and a distal fired position through a firing stroke. The cutting member is configured to be advanced distally into the sled by the motor. The control circuit is configured to detect the location of the cutting member, monitor a parameter indicative of a load experienced by the cutting member, determine a threshold value of the parameter based on a portion of the firing stroke, and adjust operation of the motor if the monitored parameter exceeds the determined threshold value.
US11666329B2
The present disclosure relates to a surgical stapling instrument comprising a handle assembly, an elongated body portion extending from the handle assembly, and an end effector supported on a distal portion of the elongated body portion. The end effector includes a curved housing having a base portion and a jaw portion, a curved anvil assembly supported on the jaw portion, and a curved cartridge assembly supported on the base portion. The cartridge assembly defining first and second arrays of staples receiving slots, the first array of staple receiving slots includes three rows of staples and the second array of staple receiving slots includes two rows of staples. A height of the staples in each of the rows of three rows of staples of the first array of staple receiving slots is different.
US11666323B1
A soft anchor having a sleeve, being a circular braided suture defining a lumen, and defining a first terminus, having a first terminus opening and a second terminus having a second terminus opening. Also, a deployment suture is engaged to the sleeve by extending into the lumen through a first broach point, then out of the sleeve through the first terminus opening, then into the sleeve through a second broach point, on the bottom-side, and then out of the lumen though a third broach point, then into the lumen through the second terminus opening and out of the suture though a fourth broach point, thereby creating a first lateral trap, between the first broach point and the first terminus opening, a second lateral trap, between the second terminal opening and the fourth broach point, and a central trap, between the second and third broach points.
US11666322B2
A suture and button construct, having an oblong button defining at least a first aperture and a second aperture; a suture length, including a braid defining a lumen and having a middle section and two end sections, each extending through a button aperture and both terminating in an end. Both ends have a needle attached. Also, two shuttles are engaged to the suture length, each having a free end and a loop end, terminating in a loop. Each shuttle enters the lumen in the middle section and extend through an aperture, while in the lumen and exit on the opposite button side from the middle section, so that both shuttle loops are available outside the lumen, to pull a suture end through the lumen and a button aperture.
US11666321B2
An epicardial anchor system comprising a tether attachment member defining a portion of a tether passageway configured to receive a portion of a tether extending from a heart valve, a base having a rim defining a void along a circumference of the rim, and a tether capture device adjacent the tether attachment member and hingedly attached to the epicardial anchor, the tether capture device including an opening configured to receive the portion of the tether therethrough and a slot configured to capture the portion of the tether extending through the opening, and an actuation mechanism configured to flip the tether capture device from an unactuated condition to an actuated condition, wherein in the unactuated condition, the tether capture device is spaced from the void defined by the rim, and in the actuated condition, a first portion of the tether capture device is positioned within the void defined by the rim.
US11666320B2
A suture anchor for fixation within an anatomical structure includes an actuation member in contact with an anchor body at a first location thereof. The anchor body is elongate along a direction of elongation and defines a central axis. In a neutral configuration, the anchor body is flat and defines a thickness along a transverse direction and a width along a lateral direction, the width being greater than the thickness. The anchor body has first and second tails that are braided together along a portion of the actuation member from the first location to a second location of the anchor body. The actuation member is configured to apply a force to the braided anchor body so as to actuate the anchor body in a manner increasing its maximum thickness along a second direction that is angularly offset from the direction of elongation.
US11666319B2
A system for repairing tears in soft tissue, e.g., meniscal tissue, by employing cinch stitching. More specifically, the present invention provides an apparatus for meniscal repair using a suture implant construct. The suture implant construct includes a first and second implant which are connected to each other via a length of suture. The implants are designed to be loaded on external surfaces of the first and second trocars.
US11666314B2
Aspects of the present invention provide apparatuses and methods for closing an apical hole in a heart of a subject, including a hole-closure device that includes a tissue-attachment portion configured to attach to cardiac tissue around the apical hole, and a collapsible portion coupled to the tissue-attachment portion and configured to close the hole by collapsing inwardly inside the apical hole.
US11666309B2
A catheter is disclosed comprising a sheath surrounding an inner lumen. The inner lumen is configured to receive a fluid. The sheath includes a sheath portion that comprises a hydrophilic material, wherein the hydrophilic material is in direct contact with the fluid. The hydrophilic material helps resist formation of air bubbles along the inner lumen.
US11666308B2
An ultrasound diagnostic apparatus including an ultrasound probe which outputs transmission ultrasound corresponding to a drive signal, which receives reflected ultrasound from the subject and which outputs a received signal according to the reflected ultrasound; a drive signal outputter which outputs the drive signal to the ultrasound probe; a hardware processor which controls the drive signal outputter to output a first drive signal having a first drive waveform and a second drive signal having a second drive waveform that is different from the first drive waveform; a received signal generator which generates a first received signal based on the reflected ultrasound corresponding to the transmission ultrasound that is output based on the first drive signal and a second received signal based on the reflected ultrasound corresponding to the transmission ultrasound that is output based on the second drive signal; and an extractor which extracts by arithmetic of the first received signal and the second received signal a received signal component which to be used in imaging. Frequency spectrums of the first drive signal and the second drive signal have a first intensity peak on a low frequency side of a center frequency of the transmission frequency, a second intensity peak on a high frequency side of the center frequency and a third intensity peak at a frequency between a frequency corresponding to the first intensity peak and a frequency corresponding to the second intensity peak, in a frequency band included in a transmission frequency band at −20 dB of the ultrasound probe.
US11666303B2
A first region of interest and a second region of interest are set respectively including a first end and a second end of a blood vessel of interest running in an umbilical cord. A template representing a fluctuation of a pulse at the first end is produced from a change of brightness information in the first region of interest. A graph representing a fluctuation of a pulse at the second end is produced from a change of brightness information in the second region of interest. A propagation time of blood is calculated by identifying a portion, in the graph, which matches the template. A length of the umbilical cord is estimated based on the propagation time.
US11666298B2
The invention provides, in some aspects, a system for implementing a rule derived basis to display volumetric image sets. In various embodiments of the invention, the selection of the images to be displayed, the generation of the 3-D volumetric image from measured 2-D images including the rendering parameters and styles, the choice of viewing directions and 2-D projection images based on the viewing directions, the layout of the projection images, and the formation of a video can be determined using a rule derived basis. In an embodiment of the present invention, the user is presented with sequential images making up a video displayed based on their preferences without having to first manually adjust parameters. The present invention allows for novel ways of viewing such images to detect microcalcifications and obstructions when reviewing Digital Breast Tomosynthesis and other volumetric mammography images.
US11666295B2
Disclosed herein is a method, comprising: for i=1, . . . , M, sending a pencil radiation beam (i) toward an image sensor, wherein the pencil radiation beam (i) is incident on an incident region (i) on the image sensor, wherein the pencil radiation beam (i) is aimed at a target region (i) on the image sensor, wherein M is a positive integer, wherein the image sensor comprises active areas spatially discontinuous from each other, and wherein the incident regions (i), i=1, . . . , M and the target regions (i), i=1, . . . , M are on the active areas; and for i=1, . . . , M, determining an offset (i) between the incident region (i) and the target region (i).
US11666293B2
Extended field-of-view imaging is enabled by combined imaging with a kilovolt (“kV”) x-ray source and a megavolt (“MV”) x-ray source, in which at least one of the corresponding x-ray detectors is laterally offset from the target isocenter by an amount such that the x-ray detector does not have a view of the target isocenter. This scan geometry enables the reconstruction of non-truncated images without resorting to the more expensive solution of outfitting the imaging or radiotherapy system with enlarged x-ray detectors.
US11666291B2
An apparatus for Digital Imaging in the Head Region of a Patient includes an X-ray source and an X-ray sensor, supported on i a rotary arm supported on a structure by a motor driven translation and rotation means. The rotary arm is provided with adjustment means for varying the distance between the source and the sensor. The apparatus comprises a single sensor for both panoramic imaging and computed tomography, and has a control unit, that controls the source, the sensor, the adjustment means, and the translation and rotation means and operates the apparatus in a basic operation mode for bigger patients and in an alternative operation mode for smaller patients, in which the distance between the source and the sensor is reduced as compared to the distance used for the basic operation mode.
US11666289B2
A radiation monitoring system includes a patient support apparatus. A radiation sensor assembly is operably coupled to the patient support apparatus. The radiation sensor assembly includes a radiation sensor and a first controller. The radiation sensor senses radiation data corresponding to a radiation dose received by a patient. A management system includes a second controller that stores a patient profile database. The second controller is communicatively coupled with the first controller. The first controller communicates the radiation data to the second controller for storage in the patient profile database to monitor the radiation dose received by the patient.
US11666283B2
An apparatus for cortical mapping and method for using same are disclosed. The apparatus comprises a ECoG electrodes array, a stimulation pad, a neural interface processor, and a computing device for mapping eloquent cortical regions of a subject's brain without using exogenous stimulation and with high resolution.
US11666279B2
A removable smartphone case is disclosed. The removable smartphone case includes a case body configured to receive a smartphone, a radio frequency (RF) front-end connected to the case body and including a semiconductor substrate and an antenna array including at least one transmit antenna configured to transmit radio waves below the skin surface of a person and a two-dimensional array of receive antennas configured to receive radio waves, the received radio waves including a reflected portion of the transmitted radio waves, wherein the semiconductor substrate includes circuits configured to generate signals in response to the received radio waves, a communications interface connected to the case body and configured to transmit digital data that corresponds to the signals generated by the semiconductor substrate from the removable smartphone case, and an alignment feature integrated into the case body and configured to align the antenna array with an object.
US11666276B2
A wearable electronic device and method are disclosed, including: at least one sensor including a plurality of electrodes, at least one processor operatively connected with the at least one sensor, and a memory operatively connected with the at least one processor. The processor implements the method, including detecting coupling of the wearable electronic device with an external accessory contacting a body of a user, and based on detecting the coupling with the external accessory, measuring a biometric signal using a voltage received from at least two electrodes from among a plurality of measurement electrodes included in the external accessory.
US11666275B2
An electronic device is provided. The electronic device includes a housing including a first surface facing a first direction, a second surface facing a second direction opposite to the first surface, and a third surface connecting the first surface and the second surface to form a space in the housing, a display viewable in the first direction through the first surface of the housing, a printed circuit board (PCB) disposed in the space, a glass covering at least a part of the second surface of the housing and including a fourth surface facing the first direction and a fifth surface facing the second direction, a high-hardness member disposed on the fifth surface, a first conductive member disposed between the high-hardness member and the glass, and a second conductive member disposed on the fourth surface and electrically connected to the PCB.
US11666273B2
An electronic device including an optical component and an enclosure comprising a glass ceramic region is disclosed. The optical properties of the glass ceramic region and the positioning of the glass ceramic region with respect to the optical component can affect the performance of the optical component, the visual appearance of the optical component, or both.
US11666271B2
A method of detecting sleep apnea includes generating a cardiac signal indicating activity of a heart of a patient. The method further includes determining a short-term average heart rate and a long-term average heart rate. The method further includes determining a start and end of a heart rate cycle based on the short-term average heart rate and the long-term average heart rate. The method further includes determining physiological parameter values occurring during the heart rate cycle. The method further includes determining whether patient has or has not experienced a sleep apnea event based on whether one or more conditions are satisfied by one or more parameter values for one or more heart rate cycles and responsively generating an indication that patient has or has not experienced a sleep apnea event.
US11666261B2
An objective of the present invention is to provide a biomagnetism measurement device capable of three-dimensionally acquiring magnetism information of a living body with ease. This biomagnetism measurement device (101) is for measuring biomagnetism using a plurality of magnetic sensors (1) at the same time. The plurality of magnetic sensors (1) is retained by a retaining part (10) (a first retaining portion [11] and a second retaining portion [12]) so as to have different measurement directions. Furthermore, the retaining part (10) (the first retaining portion [11] and the second retaining portion [12]) has arranged thereon the plurality of magnetic sensors (1) so as to enable biomagnetism to be measured at a plurality of sites at the same time. The magnetic sensor (1) comprises a means for detecting the biomagnetism in a temperature environment commensurate with normal temperature.
US11666230B1
An electronic device and method for continuous noninvasive blood pressure monitoring in a subject having an electronic device capable of receiving, storing and processing data from an arterial pulse waveform sensor. The electronic device detects key landmarks on the arterial pulse waveform allowing the calculation of pulse rate and left ventricular ejection time (LVET). Based on experimentally determined regression equations between rate-corrected LVET and systolic diastolic and pulse blood pressures, prevailing beat-to-beat blood pressure values are calculated. The only input required for continuous blood pressure monitoring is an arterial pulse waveform, detected in the present invention by a single sensor device, for example a photoplethysmography pulse detector. An electronic device suitable for performing this noninvasive method is further provided.
US11666229B2
A monitoring device for monitoring of vital signs of a living organism comprises at least two electrode pins for receiving an electrical activity of the living organism and an optical sensor for sensing a pulse of the living organism, wherein the monitoring device has a compact form and the at least two electrode pins and the optical sensor are integrated in the monitoring device.
US11666221B2
A method for identification of biochemical markers associated with cervical remodeling over the course of pregnancy of humans includes obtaining Raman signals from the cervix of each of a group of humans with pregnancy at each phase of pregnancy; finding Raman signatures corresponding to each type of cervical tissue from the obtained Raman signals; and identifying biochemical markers associated with cervical remodeling at each phase of pregnancy corresponding to the Raman signatures.
US11666219B2
Methods and apparatus for providing a functional mapping of a brain lesion in a patient's brain. The method comprises determining using a computer processor, based on human connectome data stored on at least one computer datastore in communication with the computer processor, at least one functional network associated with a location of a brain lesion identified in an image of a patient's brain. The at least one functional network includes a plurality of brain areas functionally connected to the location of the brain lesion and a plurality of correlation measures. Each of the correlation measures indicates a strength of functional connection between the location of the brain lesion and a respective brain area of the plurality of brain areas in the at least one functional network. The method further comprises determining, based at least one functional network, a likelihood that the brain lesion is causing one or more patient symptoms.
US11666216B2
A smart cage includes radiofrequency transceivers and tags attached to laboratory animals. The tags include sensors to detect monitorable conditions of the laboratory animals. The sensors include working electrodes, counter electrodes, reference electrodes, and potentiostats. The top surface of the electrodes is coated with ionophores or enzymes which detect the monitorable conditions of the laboratory animals.
US11666213B1
An apparatus and method for aiding in the detection of dementia, concussion, other neurologic conditions, retinal, and optic nerve conditions. The apparatus enables the diffusion coefficient of the tissue to be ascertained and studied by directing the light from a laser or other coherent light source at the patient's retina, optic nerve or choroid and measuring the fluctuations in the intensity of the back-scattered light caused by the movement of light scatterers in the tissue. By comparing the measurements to a normal database, or to the subject's previous measurement, in combination with an eye examination and OCT image/measurement the changes caused by the disease and the effectiveness of therapy can be ascertained. The disclosed apparatus allows the incident and detection optics to be attached to ophthalmic devices typically used in ophthalmologic care. Also, where both the incident laser fiber optic and the detection fiber optic are directly connected to goggles, one or more or all of the above-described mirrors may not be necessary, as both fiber optics are preferably directly directed into the eye.
US11666211B2
The present disclosure relates generally to systems and method for testing and determining corrective lens prescription for a patient. In an example embodiment, a system includes a hand-portable first electronic device, a second electronic device with a computerized screen, and a server to conduct a vision test for a person. The vision test includes determining, an axis prescription, a cylinder prescription, and a sphere prescription for each eye of the person. A corrective lens prescription is provided for the person based, at least in part, on the determined axis, cylinder, and sphere prescription for each eye of the person.
US11666210B2
Some embodiments of the disclosure provide an artificial neural network system for recognizing a lesion in a fundus image. The system includes a pre-processing module configured to pre-process a target fundus image and a reference fundus image taken from one person separately, a first neural network (12) configured to generate a first advanced feature set from the target fundus image, a second neural network (22) configured to generate a second advanced feature set from the reference fundus image, a feature combination module (13) configured to combine the first advanced feature set and the second advanced feature set to form a feature combination set, and a third neural network (14) configured to generate, according to the feature combination set, a judgmental result of lesions.
US11666209B2
A system, method, scope device, and camera control module device for a video endoscopy system, to enable scopes to operate with a rolling shutter-type image sensor. With selected pulsing of a strobe light, subset image data from adjacent rolling-shutter frames is selected, gain compensated for missing light and combined into a new single video frame.
US11666206B2
A device that includes a body having an opening through which a wire is configured to extend; a channel defined by an upper wire guiding portion and a lower wire guiding portion; and a wire locking feature configured to immobilize a section of the wire. The channel is configured to guide the wire along a path between the body and the wire locking feature.
US11666192B2
A nozzle of a cleaner includes a nozzle body, a rotation cleaning part having a rotation plate to which a rag is attached, a driving device provided in the nozzle body, a water tank, a water supply passage, and a water adjuster of which at least a portion is mounted on the nozzle body at a rear side thereof so as to be exposed to a rear surface or a top surface of the nozzle body. A user standing on the same floor surface as the nozzle body may manipulate the water adjuster by using his or her foot. The water adjuster may be configured to adjust an on/off operation and a rotation speed (e.g., rpm) of the pump motor.
US11666188B2
A home appliance including a dryer to discharge drying air and a stand is provided. The dryer includes a casing, a fan located in the casing, a heater located in the casing, a grip connected to the casing, and a dryer positioner located at the grip. The stand includes a receptacle to detachably mount an end of the grip of the dryer and a stand positioner located at the receptacle, the stand positioner cooperating with the dryer positioner when the grip is mounted in the receptacle to align the grip in a predetermined position. At least one of a magnetic force or a physical contact occurs between the dryer positioner and the stand positioner.
US11666184B2
A dispenser is provided for dispensing a hygiene product. The dispenser includes a time-of-flight sensor for measuring a position of an object relative to the dispenser; and a controller configured to selectively operate at least one function of the dispenser based on the measured position of the object relative to the dispenser. A method of operating at least one function of a dispenser for dispensing a hygiene product is also provided. The method includes measuring with a time-of-flight sensor a position of an object relative to the dispenser; and using a controller to selectively operate the at least one function of the dispenser based on the measured position of the object relative to the dispenser.
US11666182B2
The present invention relates to protective shield for use with a plurality of interchangeable cooking tools and/or utensils, such as a spatula, spoon, and the like. The protective shield offers protection from splashes from hot oil and grease, exposed heat and flame, and attaches to a handle end of the utensil via a threaded or other secure mechanism. The protective shield is conically shaped and includes a strap and a latch on a circumference of a base of the structure, which is used to expand and retract the size and circumference of the protective shield.
US11666179B2
A container assembly has a soft-sided insulated wall structure. It has one or more internal chambers in which to place objects to be kept cool or warm. A first closure member governs access to the container assembly. The wall structure includes one or more accommodations in which to place a warming or cooling element, such as an ice pack. The accommodations in the outside walls are externally accessible without opening the main chamber, and have their own closure, and may be insulated. The inside is a thin web through which to transfer heat. An internal partition divides the container assembly into two chambers. The partition may have a thermal storage element. The container may be a collapsible foldable bag; a tote bag; back pack or a non-collapsible lunch box. The thermal storage elements may have a flat disk shape. The disks slide sideways into place in the respective accommodations.
US11666177B2
A rotisserie oven for a food product, such as poultry, has a casing defining an oven cavity, and has a rotor, rotatably connected to the casing, with a drive for driving the rotor, and a heater for heating the food product, and a control system for controlling the drive. The control system has a control unit, a touchscreen, and a contactless motion sensor which is configured to recognize a motion of an object or of an operator's body part in front of the contactless motion sensor. The control system is programmed to initiate an action based on the recognized motion.
US11666162B2
Example split bedding systems include a first sheet section comprising a first side portion and a first end portion and a second sheet section comprising a second side portion and a second end portion. The first end portion having a first tuck flap region extending between opposing notched-out corners, and the second end portion having a second tuck flap region between opposing notched-out corners. The first side portion of the first sheet section overlaps with the second side portion of the second sheet section. Part of the first tuck flap region and part of the second tuck flap region are attached via an attachment system to form a joined sheet.
US11666141B2
A telescoping countertop support bracket assembly includes a channel member that defines a plurality of through holes through a lateral wall of the channel member. Each of the through holes is configured to receive a fastener; the channel member defines a support bar receiving portion and an accessory bar receiving portion. A support bar is received by the channel member, and it is telescopically adjustable within the channel member. A countertop contact surface is supported by the support bar, and the fasteners secure the support bar within the channel member at an adjustable support length.
US11666140B1
The invented round top folding table provides comfortable seating by eliminating physical interference with supporting table legs and guest's knees. Additionally it has a unique latch in the unfolded configuration which is secured by the force of gravity acting on the table top.
US11666130B2
Disclosed herein are devices and methods for holding hair to prevent hair damage during combing procedures. A hair gripping device can include a handle, a jaw connected to the handle, and a grip retained within the jaw. The handle and the jaw may comprise portions of first and second arms of the hair gripping device. The grip may be configured to hold a plurality of hair strands at a hair contact portion of the grip. With actuation of the handle, the jaw may be configured to move between a closed position in which movement of a majority of strands in a bundle of hair within the first hair contact portion is inhibited by the grip and an open position in which movement of a majority of hair strands in a bundle of hair within the first hair contact portion is not inhibited by the grip.
US11666128B2
A collapsible backpack cooler includes a base, a collapsible portion, a back portion, and one or more straps configured for use by a user in securing the collapsible backpack cooler to their back. The collapsible backpack cooler is configured to allow the collapsible backpack cooler to transition between an expanded configuration, and a collapsed configuration having a reduced volume as compared to the expanded configuration.
US11666127B2
A moving mechanism configured to be assembled to an object to adjust a movement of the object is provided. The moving mechanism includes a bracket, a first wheel, a brake module, a control module, and a sensing module. The bracket is assembled to the object. The first wheel and the brake module are assembled to the bracket. The control module communicates with and drives the brake module. The sensing module communicates with the brake module, and the sensing module is configured to sense an orientation of the object. The control module adjusts a brake force of the brake module on the first wheel based on the orientation of the object.
US11666125B2
A parasol includes a pole of a tension rod-type between a ceiling surface and a floor surface of a building, a lower hub penetrated by the pole and moves in the vertical direction along the pole, an upper hub fixed to a predetermined position of the pole, ribs joined to the upper hub, struts provided with respect to each rib and connecting the ribs and the lower hub, a handle operation unit for moving the lower hub along the pole, and a sheet between the ribs. The pole is divided into an outer pipe, a ceiling pipe attached to an upper side of the outer pipe, and a lower side pipe attached to a lower side of the outer pipe. The length of the pole in the vertical direction is adjustable while the position of the sheet is maintained at a height within a certain range from the floor surface.
US11666121B1
The kit comprises a fastening structure and an anchoring structure. The fastening structure includes two vertical poles which are connected at their top ends by a horizontal bar and are inserted into two apertures of the button. The lower ends of the poles are attached to terminal elements. The anchoring structure comprises two trapping mechanisms which are configured to trap the terminal elements and to prevent them from detachment once they reach their trapping spots. The user places the fastening structure with the button above the cloth at the desired location and places the trapping mechanisms below the cloth opposite to the terminal elements. Next, the user pushes the poles downwards pierces the cloth and permanently traps the terminal elements by inserting them into the trapping mechanisms until they reach their trapping spots in which the resilient gates are released and occupy the cavities of the terminal elements.
US11666118B2
A bladder for an article of footwear includes a support chamber and an expansion chamber. The support chamber has a top wall, a bottom wall, and a peripheral wall extending between the top wall and the bottom wall and defining a peripheral profile of the support chamber. The expansion chamber extends from the peripheral wall at a first end of the bladder. In some examples, the peripheral wall defines a first end of the support chamber having one or more lobes extending from the top wall to the bottom wall. The one or more lobes may include a first lobe disposed adjacent to a first side of the support chamber and a second lobe disposed adjacent to a second side of the support chamber. The expansion chamber may be disposed between the first lobe and the second lobe at the first end of the support chamber.
US11666111B2
A head protection system includes a safety helmet and a fire protection cloth. The safety helmet includes a helmet shell (105) and a holding device (108) to guarantee a distance (A) between a helmet shell inner side (106) and the user head (102). An air path (110) is formed by a plurality of openings (120) of a fastening ring (125) and the distance between the inner side of the helmet shell and the head of the user. The fastening ring is arranged at least in an area of the user forehead of the user. The fire protection cloth has a fastening strap (230) with rigid fastening elements (235) configured to mesh with an opening of the fastening ring to detachably fasten the fire protection cloth to the safety helmet. The rigid fastening elements fill the plurality of openings in the fastened state to close the air path.
US11666101B2
The heating engine control circuit includes a rail converter circuit and a gate driver circuit. The rail converter circuit is configured to convert a power supply voltage into a power signal based on a vaping enable signal, the vaping enable signal being a pulse width modulated signal. The gate driver circuit includes an integrated gate driver. The integrated gate driver is configured to control application of power to a heater of the non-nicotine electronic vaping device based on the power signal, a first enable signal and a second enable signal.
US11666100B2
A nicotine e-vaping device includes a heater, a power control circuit, and a memory module. The heater element is configured to heat nicotine pre-vapor formulation. The power control circuit is coupled to the heater element through a wire. The power control circuit is configured to apply a pulse width modulated power signal to the heater element through the wire, and to receive information over the wire. The memory module is configured to detect a plurality of pulses in the pulse width modulated power signal, record information based on the detected plurality of pulses, and output the recorded information to the power control circuit via the wire.
US11666095B2
A heater assembly includes a heater extending to correspond to at least a part of a length of a cigarette and comprising one end to be inserted into the cigarette and configured to generate heat when electricity is applied; a first cover coupled to the heater to maintain a position with respect to the heater and comprising one surface that faces toward the end of the heater and extends outward from the heater; and a second cover coupled to another end of the heater and supporting another surface of the first cover facing toward the other end of the heater.
US11666090B2
An aerosol-generating device is provided, including an elongate housing having a first end, a second end, and a longitudinal axis extending between the first and the second ends; a cavity configured for insertion of an aerosol-generating article into the cavity along a first direction that is substantially perpendicular to the longitudinal axis; first and second apertures at first and second ends of the cavity and being configured for insertion and removal of the aerosol-generating article; an electrical power supply positioned within the elongate housing; at least one electrical heater, and a controller disposed within the elongate housing and configured to control a supply of electrical power from the electrical power supply to the at least one electrical heater when the aerosol-generating article is received within the cavity.
US11666087B2
A smoking apparatus including a quick-seal attachment assembly. The smoking apparatus includes an upper portion including a bowl and a lower portion including a water base. The quick-seal attachment assembly includes a first attachment mechanism configured with the upper portion of the smoking apparatus and a second attachment mechanism configured with the lower portion. The upper portion and the lower portion are disconnected and/or reconnected to one another by engaging the first and second attachment mechanisms and by applying a partial twist of the upper portion of the smoking apparatus with respect to the lower portion.
US11666086B2
Features relating to a cartridge for use with a vaporizer body are provided. The cartridge mates with the vaporizer body in a cartridge receptacle. The cartridge may include a cartridge body defining a reservoir configured to contain vaporizable material; a mouthpiece coupled to a proximal end region of the cartridge body; at least one proximal absorbent pad wedged within an internal volume of the mouthpiece; a mouthpiece seal with sealing ribs; a cannula defining a vaporization chamber extending through the cartridge body; a resistive heating element; a porous wick configured to draw the vaporizable material in the reservoir towards the vaporization chamber; an internal sealing gasket positioned in a distal end region of the cartridge body; a lower support structure positioned in the distal end region of the cartridge body; and at least one distal absorbent pad configured to wedge within a recess located in the lower support structure.
US11666084B2
Methods for obtaining natural colorants from plant material (e.g., tobacco material) and for using such natural colorants to dye various substrates are provided. Natural colorants are obtained using particular enzymes and particular conditions (e.g., time, temperature, and pH profiles). Such colorants can be used to dye substrates, for example, using conventional dyeing techniques or using unique in situ methods.
US11666082B2
Provided are modified tobacco plants having reduced nitrate levels and tobacco products generated from the modified tobacco plants having reduced tobacco specific nitrosamines (TSNAs). Also provided are methods of reducing TSNAs in tobacco products by altering the gene expression of the nitrate assimilation pathway
US11666077B2
A method for producing liver pâté that models classic goose liver pâté made of goose foie gras. The liver pâté does not contain foie gras and only humanely produced raw materials are used. Aqueous jelly is obtained from collagen-containing animal tissue and concentrated into water-soluble jelly. Liquid fat is obtained from animal fat tissue. Raw strained animal liver is obtained by separating solid components. The concentrated aqueous jelly, liquid fat and strained raw liver are mixed, cured and cooked in a container.
US11666074B2
The subject invention provides compositions and methods for preserving food products. Specifically, the subject compositions and methods can be used to prolong the consumable life of food products, as well as to reduce and/or prevent spoilage and/or contamination by microbial agents. The compositions comprise a blend of one or more glycolipids and one or more lipopeptides. The compositions comprise sophorolipids and surfactin, lichenysin or another lipopeptide biosurfactant.
US11666069B2
An extended shelf-life proteinaceous meat analogue comprising vegetable proteins, including at least wheat gluten, and a plasticizer. Said proteinaceous meat analogue has a water content of less than 20% (w/w) and a torque value at 10 mn of at least 10 gram meter (g*m), as determined by a test A. A method for obtaining an extended shelf-life proteinaceous meat analogue comprises the steps of (i) mixing vegetable proteins, including at least vital wheat gluten, and a plasticizer for obtaining a dough, and (ii) heating said dough, wherein said extended shelf-life proteinaceous meat analogue has a water content of less than 20% (w/w). A foodstuff comprises said extended shelf-life proteinaceous meat analogue and the method for obtaining said foodstuff.
US11666064B2
Disclosed is an apparatus for making a pastry in the shape of a cone, including a base carrying a plate, a cone holder removably mounted on the plate, at least one conical mold removably mounted on the cone holder, and a guide to guide a tool for depositing a preparation intended forming the pastry. The guide and cone holder are arranged so the depositing tool and the conical mold move with respect to each other to deposit, on the mold, the preparation to become the pastry to obtain at least one cone of the preparation formed around the conical mold. Also disclosed are equipment including the apparatus and the depositing tool, a method for making a pastry in the shape of a cone from a preparation intended to become the pastry by using the apparatus or the equipment, as well as the pastry in the shape of a cone.
US11666052B2
The present invention relates to herbicidal mixture comprising L-glufosinate or its salt and at least one bleacher herbicide. The invention furthermore relates to a method for controlling undesirable vegetation in burndown programs, in industrial vegetation management and forestry, in vegetable and perennial crops and in turf and lawn.
US11666047B2
Containers (100) for cryopreserved biological samples (102) may include an insulated housing including a cavity (108) for containing at least one cryopreserved biological sample; and a sealed reservoir (106) at least partly surrounding the cavity, the sealed reservoir including liquified gas (120) such as liquified air, the gas being kept largely liquified by a heat transfer engine (112) such as a Stirling cryocooler. A valve (114) may be provided to function as both a pressure relief valve and an inlet valve. The inlet valve may be coupled to a sensor (122) for sensing a volume of liquified gas within the sealed reservoir. The container may further include a heat exchanger (116) coupled to the heat engine and extending into the sealed reservoir.
US11666041B2
An extendable pot for catching fish includes a frame structure comprising a main frame structure and an extendable frame structure, with the extendable frame structure comprising a number of floating elements extending the extendable frame structure out from the main frame structure when the pot is immersed in water.
US11666032B2
A milking system includes one or more milking devices and a control unit. The system is provided with a plurality of milking cups, a first milk jar for receiving the milking, a first pumping device for pumping the milking, a second milk jar for receiving the milking from the first milk jar, a second pumping device for pumping at least a part of the milking, and at least one storage tank for storing at least a part of the milking. The second pumping device pumps the milking at a lower flow rate than that at which the first pumping device pumps the milking. As a result, the milk is for the most part moved with low mechanical load and little admixture with air which improves milk quality. In the case of a plurality of milking devices in the milking system, various milkings can be moved and treated separately.
US11666023B1
A novel maize variety designated 1PVKQ48 and seed, plants and plant parts thereof are provided. Methods for producing a maize plant comprise crossing maize variety 1PVKQ48 with another maize plant are provided. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into 1PVKQ48 through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby are provided. Hybrid maize seed, plants or plant parts are produced by crossing the variety 1PVKQ48 or a locus conversion of 1PVKQ48 with another maize variety.
US11666021B1
A novel maize variety designated 1PCBY70 and seed, plants and plant parts thereof are provided. Methods for producing a maize plant comprise crossing maize variety 1PCBY70 with another maize plant are provided. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into 1PCBY70 through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby are provided. Hybrid maize seed, plants or plant parts are produced by crossing the variety 1PCBY70 or a locus conversion of 1PCBY70 with another maize variety.
US11666013B2
A new and distinct lettuce variety NUN 09178 LTL is disclosed as well as seeds and plants and heads or leaves thereof. NUN 09178 LTL is a multileaf red lettuce variety, comprising resistance to Downy Mildew (Bremia lactucae) Isolates Bl:16-37 EU and Nasonovia ribisnigri Biotype Nr:0.
US11666002B2
An agricultural baler includes: a chassis; a plurality of wheels carried by the chassis; at least one electric wheel motor coupled to at least one of the plurality of wheels and configured to drive the at least one coupled wheel; an apron assembly including a plurality of chains driven by a plurality of rolls and configured to form a bale, the plurality of rolls including a starter roll; an electric drive motor coupled to the starter roll and configured to drive the starter roll; and an electrical power system carried by the chassis and having at least one battery electrically coupled to the at least one electric wheel motor and the electric drive motor.
US11666000B2
In a riding-type mower, a vehicle body includes a rear portion in which a pair of right/left vehicle body frames extend in a front-rear direction relative to the vehicle body, with a gap therebetween in a lateral width direction. A mowing device is configured to discharge mown grass rearward relative to the vehicle body such that the mown grass falls onto the ground. A cover is provided in a bottom portion of the vehicle body, at a position that is rearward of the mowing device, and covers a gap between the pair of right/left vehicle body frames.
US11665997B2
Electric powered mower unit (1) comprising a frame (13) provided with connecting points (132) arranged for attaching the mower unit (1) to a tool-carrier (3) provided with an electric power unit (31), several cutting modules (11), each cutting module (11) being suspended vertically displacea-ble and non-rotatable in a cutting module guide (122) provided in the frame (13), charac-5 tensed in that each cutting module (11) comprises a cutting disc (111) and an elec-tric motor (112) powered by the electrical power unit (31), said cutting disc (111) being attached to a motor driving shaft (1121), and a actuator (121) forming a link between the cutting module (11) and the frame (13).
US11665991B2
A system for monitoring the levelness of a multi-wing agricultural implement may include a central frame section, a wing section pivotably coupled to the central frame section and a field contour sensor configured to generate data indicative of a contour of an aft portion of the field located rearward of the implement relative to a direction of travel of the implement. The system may further include a controller communicatively coupled to the field contour sensor. The controller may be configured to monitor the data received from the field contour sensor and assess a levelness of the implement based at least in part on the contour of the aft portion of the field.
US11665990B2
A work vehicle includes a frame and a row unit that is attached to the frame. The row unit includes a gauge wheel and a ground engaging implement. The gauge wheel is configured to ride on the ground surface and maintain the ground engaging implement at a predetermined vertical position with respect to the ground surface. Furthermore, the work vehicle includes a ground support unit that supports the frame for movement across the ground surface. The ground support unit includes an outer face. The outer face includes a non-treaded side area that defines a lateral side of the outer face. The outer face includes a tread area that is spaced laterally from the lateral edge. The tread area includes a plurality of projections. The non-treaded side area is aligned along the travel direction with respect to the gauge wheel.
US11672188B2
A system that includes: an array of qubits, each qubit of the array of qubits comprising a first electrode corresponding to a first node and a second electrode corresponding to a second node, wherein, for a first qubit in the array of qubits, the first qubit is positioned relative to a second qubit in the array of qubits such that a charge present on the first qubit induces a same charge on each of the first node of the second qubit and the second node of the second qubit, such that coupling between the first qubit and the second qubit is reduced, and wherein none of the nodes share a common ground is disclosed.
US11672185B2
A magnetic memory includes a first spin-orbital-transfer-spin-torque-transfer (SOT-STT) hybrid magnetic device disposed over a substrate, a second SOT-STT hybrid magnetic device disposed over the substrate, and a SOT conductive layer connected to the first and second SOT-STT hybrid magnetic devices. Each of the first and second SOT-STT hybrid magnetic devices includes a first magnetic layer, as a magnetic free layer, a spacer layer disposed under the first magnetic layer, and a second magnetic layer, as a magnetic reference layer, disposed under the spacer layer. The SOT conductive layer is disposed over the first magnetic layer of each of the first and second SOT-STT hybrid magnetic devices.
US11672184B2
A magnetic tunnel junction (MTJ) device includes at least one magnetic tunnel junction element, silicon nitride spacers and tantalum containing spacers. The magnetic tunnel junction element is disposed on a dielectric layer, wherein a corresponding metal line is disposed in the dielectric layer contacting to the magnetic tunnel junction element. The silicon nitride spacers are disposed on sidewalls of the magnetic tunnel junction element. The tantalum containing spacers are disposed on sidewalls of the silicon nitride spacers, wherein at least one of the tantalum containing spacers includes a top part covering a part of a top surface of the magnetic tunnel junction element. The present invention also provides a method of manufacturing said magnetic tunnel junction (MTJ) device.
US11672183B2
A magnetic memory device includes a reference magnetic structure, a free magnetic structure, and a tunnel barrier pattern therebetween. The reference magnetic structure includes a first pinned pattern, a second pinned pattern between the first pinned pattern and the tunnel barrier pattern, and an exchange coupling pattern between the first pinned pattern and the second pinned pattern. The second pinned pattern includes magnetic patterns and non-magnetic patterns, which are alternately stacked. The first pinned pattern is a ferromagnetic pattern consisted of a ferromagnetic element.
US11672173B2
An organic light-emitting device having low-driving voltage, improved efficiency, and long lifespan includes: a first electrode; a second electrode facing the first electrode; a first layer between the first electrode and the second electrode, the first layer including a first compound; a second layer between the first layer and the second electrode, the second layer including a second compound; and a third layer between the second layer and the second electrode, the third layer including a third compound; wherein the first compound does not include a nitrogen-containing heterocyclic group comprising *═N—*′ as a ring forming moiety, and wherein the first compound, the second compound, and the third compound each independently include at least one group selected from groups represented by Formulae A to C:
US11672171B2
A light-emitting device includes a plurality of organic EL elements. Each of the organic EL elements includes a reflection electrode, a hole transport region, an electron-trapping luminescent layer, and a light extraction electrode in this order. The hole transport region has a sheet resistance of 4.0×107 Ω/sq.⋅ or more at a current of 0.1 nA/pixel, and the total thickness of the hole transport region and the electron-trapping luminescent layer is equivalent to an optical path length enabling emission from the electron-trapping luminescent layer to be enhanced.
US11672169B2
An object of the present invention is to provide an organic EL element that has (1) high light emission efficiency and high power efficiency, (2) a low light-emission start voltage, (3) a low actual driving voltage, and (4) an especially long lifespan. According to the present invention, provided is an organic electroluminescent element, or organic EL element, having at least an anode, a hole injection layer, a first hole transport layer, a second hole transport layer, a light emitting layer, an electron transport layer, and a cathode, in this order, wherein the second hole transport layer contains an arylamine compound represented by the general formula (1) below, and the electron transport layer contains a pyrimidine derivative represented by the general formula (2) below. Note that A in the general formula (2) represents a monovalent group represented by the structural formula (3) below.
US11672166B2
An organometallic compound is represented by Formula 1. An organic light-emitting device includes: a first electrode; a second electrode facing the first electrode; an organic layer between the first electrode and the second electrode and comprising an emission layer; and the organometallic compound represented by Formula 1. In Formula 1, each substituent is the same as described herein.
US11672158B2
An embodiment of the present invention provides a display device including: a substrate including a display area in which an image is displayed and a non-display area disposed outside the display area; a pad portion disposed in the non-display area on the substrate and including a plurality of pads spaced apart by a predetermined distance; and a flexible printed circuit board bonded to the pad portion, wherein the flexible printed circuit board may include a plurality of leads, each of the plurality of pads may be bonded to each of the plurality of leads, each of the plurality of pads may include a contact pad electrode that contacts each of the plurality of leads, and the contact pad electrode may include a dummy electrode surrounding an edge of a lower surface of each of the plurality of leads.
US11672157B2
An electronic device includes a display unit having a plurality of pixels. Each of the pixels includes a transistor and a light-emitting element. A plurality of signal lines is connected to the pixels. An encapsulation layer covers the pixels. The display unit includes a display region and a non-display region adjacent to the display region in a plan view. A sensing unit includes a plurality of sensing patterns overlapping the display region. A plurality of sensing pads overlaps the non-display region. A plurality of sensing lines electrically connects the sensing patterns and the sensing pads. A bridge line is connected to a first sensing line and a corresponding first sensing pad. The bridge line is bent to extend in a direction that is different from an extending direction of the first sensing line to connect the bridge line to the first sensing pad.
US11672149B2
The present disclosure provides an OLED display panel and a method for detecting the OLED display panel, and a display device. The OLED display panel includes a base substrate including a display area and a non-display area surrounding the display area and having a first region adjacent to the display area. The display area includes a drive signal line and a power supply voltage signal line both extending from the display area to the first region. The drive signal line includes, in the first region, a first section of wiring at an anode layer, the power supply voltage signal line includes, in the first region, a second section of wiring at a gate metal layer, and parts of the drive signal line and the power supply voltage signal line in the display area are located at a source-drain metal layer.
US11672146B2
A display device includes: a substrate; and a semiconductor layer disposed on the substrate, and including a first area, a second area, and a third area that are sequentially positioned by dividing the semiconductor layer into three areas in a thickness direction of the semiconductor layer, wherein the semiconductor layer includes polycrystalline silicon, a concentration of fluorine contained in the semiconductor layer has a first peak value in the first area and a second peak value in the third area, and the first peak value of the concentration of the fluorine in the semiconductor layer is about 30% or less of the second peak value of the concentration of the fluorine in the semiconductor layer.
US11672143B2
An organic light emitting diode display device includes a substrate, a first pixel structure, a second pixel structure, a thin film encapsulation structure, and a functional module. The substrate includes a display region and a module region. The display region includes a first pixel region, and the module region includes a second pixel region and a transmissive region. The first pixel structure is disposed in the first pixel region on the substrate. The second pixel structure is disposed in the second pixel region on the substrate. The thin film encapsulation structure is disposed on the first and second pixel structures, and includes a plurality of scatterers in the first module region. The functional module is disposed in the module region on a bottom surface of the substrate.
US11672131B2
A memory device may include an insulating structure including a first surface and a protrusion portion protruding from the first surface in a first direction, a recording material layer on the insulating structure and extending along a protruding surface of the protrusion portion to cover the protrusion portion and extending onto the first surface of the insulating structure, a channel layer on the recording material layer and extending along a surface of the recording material layer, a gate insulating layer on the channel layer; and a gate electrode formed on the gate insulating layer at a location facing a second surface of the insulating structure. The second surface of the insulating structure may be a protruding upper surface of the protrusion portion.
US11672130B2
A semiconductor device and a method of forming the same are provided. The semiconductor device including a first conductive line on a substrate, memory cell structures stacked on the first conductive line, a second conductive line between the memory cell structures; and a third conductive line on the memory cell structures may be provided. Each of the plurality of memory cell structures includes a data storage material pattern, a switching material pattern, and a plurality of electrode patterns, at least one of the electrode patterns includes at least one of carbon material layer or a carbon-containing material layer, and the at least one of the electrode patterns includes a first region doped with a nitrogen and a second region that is not doped with the nitrogen, or is doped with the nitrogen at a first concentration lower than a second concentration of the nitrogen in the first region.
US11672128B2
Some embodiments include an integrated assembly having a row of conductive posts. The conductive posts are spaced from one another by gaps. Leaker device material extends is within at least some of the gaps. An insulative material is along sidewalls of the conductive posts. A conductive structure is over the conductive posts. The conductive structure has downward projections extending into at least some of the gaps. The leaker device material is configured as segments along sides of the downward projections and extends from the sides to one or more of the conductive posts. Some embodiments include methods of forming integrated assemblies.
US11672127B2
Ferroelectric semiconductor device with a memory cell, with a ferroelectric memory layer and a first conductive layer disposed on the ferroelectric memory layer; and a semiconductor device connected to the memory cell. The ferroelectric memory layer of the memory cell can include a mixed crystal with a group III nitride and a non-group III element.
US11672123B2
The present disclosure relates to an integrated chip including a three-dimensional memory array. The three-dimensional memory array includes a first local line and a second local line that are elongated vertically, a first memory cell extending between the first local line and the second local line, and a second memory cell directly under the first memory cell, extending between the first local line and the second local line, and coupled in parallel with the first memory cell. The first memory cell is coupled to a first word line and the second memory cell is coupled to a second word line. The first word line and the second word line are elongated horizontally. A first global line is disposed at a first height and is elongated horizontally. A first selector extends vertically from the first local line to the first global line.
US11672122B2
A semiconductor memory device includes an electrode structure, a plurality of channel posts, and at least one gate separation layer. The electrode structure includes insulating interlayers and gate conductive layers which are alternately stacked. The channel posts are formed through the electrode structure. The gate separation layer is formed between the channel posts. The gate separation layer separates an uppermost gate conductive layer among the gate conductive layers. Each channel post among the channel posts adjacent to the gate separation layer has a gibbous moon shape in a planar view. The semiconductor memory device further includes a slit structure arranged at both sides of the gate separation layer. The slit structure is formed through the electrode structure. Each channel post among the channel posts adjacent to the slit structure has a gibbous moon shape in the planar view.
US11672119B2
A vertical memory device includes a gate electrode structure, channels, a charge storage structure, and a division pattern. The gate electrode includes gate electrodes spaced apart from each other in a first direction. The channel extends through the gate electrode structure, and includes a first portion and a second portion on and contacting the first portion. The second portion includes a lower surface having a width less than that of an upper surface of the first portion. The charge storage structure covers an outer sidewall of the channel. The division pattern extends between the channels in a second direction, and includes a first dummy channel and a first dummy charge storage structure covering a sidewall and a lower surface thereof. The first dummy channel includes the same material as that the channel, and the first dummy charge storage structure includes the same material as the charge storage structure.
US11672104B2
Embodiments of the present disclosure include systems and methods for controlling the direction of cooling air flow across components of an electronic devices. In one or more embodiments, a device or information handling system includes an air flow generator that is able to generate air flow in different directions by activation of a button, a controller, or both. In one or more embodiments, a sensor measures air temperatures of air when the air flows in different directions, and an air flow direction is selected using the air temperature measurements.
US11672093B2
The present invention relates to a cable lead-out system, configured to route at least one cable from inside of a device to outside of the device, wherein the cable lead-out system comprises: a first pressing piece having at least one through hole for leading out the cable; a second pressing piece having at least one through hole for leading out the cable; and a seal having a base sandwiched between the first pressing piece and the second pressing piece with two opposite sides thereof, and being deformable when being pressed by the first pressing piece and the second pressing piece, having the base comprising at least one through hole for leading out the cable, and at least one protrusion that protrudes from at least one of the two sides of the base, and each of the at least one protrusion being disposed around a through hole of the base, whereby the through hole of the base passes throughout the protrusion, wherein each of the at least one protrusion completely passes through a corresponding through hole of the first pressing piece or a corresponding through hole of the second pressing piece. The cable lead-out system can protect the cable sheaths from being scratched by metal parts.
US11672092B2
A modular electrical distribution system for an RV comprises a water-tight housing for mounting to the RV with a plurality of water-tight openings for receiving electrical cables or wires from a towing vehicle and/or auxiliary electrical devices. The system includes a power-in assembly, a trailer connection assembly and a breaker assembly that can be tailored to the particular electrical distribution needs of the RV. The trailer connection assembly includes a plurality of electrical terminals for engagement to wires connected to electrical components of the towing vehicle, such as brake lights, turn signal lights, etc. The breaker assembly includes a plurality of circuit breakers or fuses connected to the power-in assembly and to a plurality of corresponding output bars with output terminals to connect to the cables/wires for the auxiliary electrical devices. The system can include an auxiliary circuit for connection to an auxiliary power source, such as a solar panel array.
US11672091B2
Various embodiments provide a display screen system that includes a display screen, a first stand element, and a second stand element. The display screen can include a front display surface, a back surface, and a bottom surface. The first and second stand elements can each include a connection element disposed between a first end and a second end. The display screen stand system can be configured to be assembled in a table top configuration or a wall mount configuration. In the table top configuration, the first stand element and the second stand element are attached to the bottom of the display screen. In the wall mount configuration, the first stand element and the second stand element are configured to be coupled to the back of the display screen.
US11672084B2
A foldable display device may include a display panel, a window disposed on a first surface of the display panel, a metal plate disposed on a second surface of the display panel opposite to the first surface, and a functional member disposed between the display panel and the metal plate, the functional member including a first functional layer in which a plurality of holes are formed and a filler filling each of the holes. An elastic modulus of the filler may be greater than an elastic modulus of the first functional layer.
US11672083B2
A composite circuit board includes a composite circuit board unit, a first solder mask formed on a first metal protection layer of the composite circuit board unit, and a second solder mask formed on a second metal protection layer of the composite circuit board unit. Two ends of a first outer conductive circuit are bent back toward each other and spaced apart a predetermined distance to form a first window. Two ends of a second outer conductive circuit are bent back toward each other and spaced apart a predetermined distance to form a second window.
US11672081B2
A manufacturing method of a metal structure is disclosed, which includes the following steps: forming a seed layer on a substrate; forming a patterned metal layer on the seed layer, wherein the patterned metal layer includes a metal member; forming a first patterned photoresist layer on the seed layer, wherein a thickness of the first patterned photoresist layer is less than a thickness of the patterned metal layer; and performing a first patterning process to the seed layer through the first patterned photoresist layer to form a patterned seed layer, wherein after the first patterning process, the metal member includes a first part and a second part, the first part is disposed between the patterned seed layer and the second part, and a width of the first part is greater than a width of the second part.
US11672076B2
A method of manufacturing a component carrier includes (i) forming a stack having at least one electrically conductive layer structure and/or at least one electrically insulating layer structure; (ii) assembling a component to the stack; and (iii) forming a thermally conductive tongue having an embedded portion embedded in the stack and having an exposed portion protruding beyond the stack, where a first width of the tongue in the embedded portion is different from a second width of the tongue in the exposed portion. A corresponding component carrier includes analogous features.
US11672074B2
A plasma confinement system includes an enclosure, one or more internal magnetic coils suspended within the enclosure in a plasma region, and one or more supports configured to support the one or more internal magnetic coils suspended within the enclosure. Each support of the one or more supports includes a first end and a second end opposite the first end. The first end is coupled to an interior portion of the enclosure and the second end is coupled to a component disposed within the plasma region. Each support further includes electrical conducting material disposed between the first end and the second end. The electrical conducting material is configured to, when supplied with one or more electrical currents, generate a magnetic field having a magnetic field gradient that varies along the support from the first end to the second end.
US11672070B2
A luminaire which provides illumination (in some cases, in a coordinated manner with other nodes of a lighting network) in an industrial environment is further configured to serve as a node of a wireless process control or industrial network, which may be a mesh and/or time-synchronized wireless network. Upon detecting a loss of mains power and/or other triggering condition, the luminaire node allocates an amount of available battery power to maintain the routing of process control messages, and allocates at least some of a remaining amount of available battery power (if any) for performing lighting activities such as driving illumination and/or lighting-related communications. The allocations for (e.g., the relative priorities of) support for process control and support for lighting activities may be based on an allocation configuration and/or based on instructions received from other components of the process control network and/or the lighting network, which may include user interface devices.
US11672069B2
A control device configured for use in a load control system to control an electrical load external to the control device may comprise an actuation member having a front surface defining a capacitive touch surface configured to detect a touch actuation along at least a portion of the front surface. The control device includes a main printed circuit board (PCB) comprising a control circuit, a tactile switch, a controllably conductive device, and a drive circuit operatively coupled to a control input of the controllably conductive device for rendering the controllably conductive device conductive or non-conductive to control the amount of power delivered to the electrical load. The control device also includes a capacitive touch PCB that comprises a touch sensitive circuit comprising one or more receiving capacitive touch pads located on the capacitive touch PCB and arranged in a linear array adjacent to the capacitive touch surface.
US11672066B2
According to an embodiment of the present disclosure, a portable lighting device capable of adaptive brightness control includes: a light irradiation unit that irradiates light; a brightness sensing unit that measures the brightness of a region in front of a current position at a predetermined distance; and a control unit that controls the amount of light to be irradiated by the light irradiation unit depending on the brightness measured by the brightness sensing unit. Herein, the control unit controls the amount of light by changing the width of an ON pulse period in which the light irradiation unit is operated within a discrete signal controlling the light irradiation unit or by changing the intensity of light in response to a continuous signal controlling the light irradiation unit.
US11672061B1
An LED light string control system includes an LED light string, a voltage generation apparatus, and a control module. The control module controls the voltage generation apparatus to change a signal provided to the LED light string to a first voltage level according to a first logic of a light command, and to change the signal to a second to a second voltage level according to a second logic of the light command. The control module controls the voltage generation apparatus to change the signal to a distinction voltage once first logics and/or second logics of the light command appear consecutively.
US11672055B2
An induction heating device includes: a working coil including a conducting wire that is wound in an annular shape and that is connected to a plurality of electric terminals; a ferrite core disposed vertically below the working coil and configured to direct upward an alternating magnetic field generated by the working coil, the ferrite core defining a stepped portion at each corner of the ferrite core; a base plate that supports the ferrite core on an upper surface of the base plate and that defines a connection hole having a shape corresponding to the corner of the ferrite core; and an indicator substrate disposed vertically below the base plate. The indicator substrate includes a connector that is disposed on an upper surface of the indicator substrate, that is coupled to one or more of the plurality of electric terminals, and that protrudes upward through the connection hole.
US11672051B2
An electrically heated support according to the present invention includes: a pillar shaped honeycomb structure, the honeycomb structure including an outer peripheral wall and a partition wall, the partition wall defining a plurality of cells, each of the cells penetrating from one end face to other end face to form a flow path; and a pair of electrode terminals provided on a surface of the outer peripheral wall. In a cross section of the honeycomb structure, the honeycomb structure includes: a plurality of first slits arranged, the first slits being configured to define an energizing path; and a least one second slit located in the energizing path, the second slit extending in a different direction from that of the first slits. A length of the energizing path from one electrode terminal to the other electrode terminal is longer than a diameter of the honeycomb structure.
US11672044B2
Systems and methods relating to resuming a suspended connection of a wireless device in a wireless system are disclosed. In some embodiments, a method of operation of a wireless device includes receiving, from a wireless network, a first message that indicates to suspend a connection between the wireless device and the wireless network. Responsive to receiving the first message, the wireless devices stores a wireless device context and enters a suspended mode of operation. Upon an occurrence of a triggering event, the wireless device transmits, to the wireless network, a second message that requests to resume the connection between the wireless device and the wireless network, wherein the second message includes a resume identifier having an identifier of a network node and an identifier of the wireless device. The wireless device receives, from the wireless network, a contention resolution identity Medium Access Control (MAC) control element that includes a portion of the second message.
US11672038B2
Embodiments of an apparatus and method are disclosed. In an embodiment, a method of multi-link communications involves at an access point (AP) multi-link device, allocating Association IDs (AIDs) to non-AP multi-link devices, including allocating one of the AIDs to each of the non-AP multi-link devices, and at the AP multi-link device, generating a first indication element for the AIDs to indicate a buffered data configuration at the AP multi-link device for the non-AP multi-link devices.
US11672034B2
Wireless communications systems and methods related to channel occupancy time (COT) sharing among sidelink user equipment devices (UEs) are provided. A first user equipment (UE) determines a channel occupancy time (COT) in a shared radio frequency band for communicating a sidelink with a second UE. The first UE transmits, to the second UE, the sidelink using first resources in the COT, the sidelink comprising COT sharing information for second resources in the COT.
US11672030B2
A control method of an embodiment is a control process in which, based on management information of a first execution order that is an execution order of a hands free profile (HFP) connection process of attempting to establish an HFP connection to a pre-registered peripheral device and a second execution order that is an execution order of an audio video profile (AVP) connection process of attempting to establish an AVP connection to the peripheral device, an on-vehicle device connectable to the peripheral device by Bluetooth performs the HFP connection process in the first execution order and performs the AVP connection process in the second execution order, and when a connection with a certain peripheral device is not established within a predetermined time in one of the HFP connection process and the AVP connection process and the peripheral device is managed as an execution target of the other connection process in the management information, the on-vehicle device determines whether to restrain execution of the other connection process for the peripheral device thereafter.
US11672020B2
A base station is provided which notifies a mobile station of transmission power information for an uplink RACH, the mobile station transmits transmission delay estimation information on the RACH to the base station over the RACH at a transmission power based on the transmission power information, and the base station changes the transmission power information according to the transmission delay estimation information and notifies the mobile station of the changed transmission power information. The mobile station retransmits data or a preamble if the mobile station does not receive a notification that the base station has received the data or the preamble correctly after a predetermined time. The base station transmits the transmission power information over a BCH and a CPICH transmitted to a plurality of mobile stations.
US11672016B2
Aspects of the present disclosure provide techniques for addressing scenarios where the minimum transmit power supported by a wireless node (e.g., an Integrated Access and Backhaul (IAB) node) is above a minimum value specified by a standard. In some cases, the node may signal information regarding its power configuration so a network entity of the may take it into account (e.g., when allocating or scheduling resources). The power configuration may include an indication of the minimum transmit power supported by the node and/or an indication of a guard band that may help the IAB control adjacent channel leakage.
US11672013B2
Various aspects of the present disclosure generally relate to wireless communication. A user equipment (UE) may transmit a random access message including a preamble and a payload. A base station may detect the preamble of the random access message. The base station, and may fail or succeed to decode the payload of the random access message. The base station may transmit, based at least in part on detecting the preamble and the different decoding outcome for the payload, a random access response. The random access response may include an uplink group grant and an indication for a type of the uplink group grant for a plurality of UEs whose preamble transmission share the same time and frequency occasion. UEs may monitor the type and the contents of the uplink group grant and transmit data subsequently on a set of shared time frequency resources. Numerous other aspects are provided.
US11672010B2
Embodiments of a beacon interval with boundary time points (BTPs) to improve latency for time sensitive traffic (TST) in Extremely High Throughout (EHT) WLANS are disclosed herein. In some embodiments, a non-access point (AP) station (STA) is configured to decode a beacon frame received from an AP STA. The beacon frame may indicate one or more BTPs within a beacon interval (BI). The non-AP STA may obtain a transmission opportunity (TXOP) for a transmission to the AP STA. The TXOP may be bounded by the one or more BTPs. The non-AP STA may encode a PPDU for transmission to the AP STA during the TXOP.
US11672002B2
Base stations of neighbor cells can coordinate with each other in allocating grant-free uplink (GUL) resources for a device-to-device (D2D) connection or channel between user equipments (UEs) across the neighbor cells. The base stations coordinate to determine a condition conducive to D2D communication between the UEs. If the condition exists, the base stations coordinate to allocate network resources for D2D communication between the UEs, and establish a D2D connection between the UEs using the allocated network resources for D2D communication.
US11671998B2
Various aspects pertaining to apparatuses, methods, and computer-readable medium are described herein. Some aspects pertain to wireless communication between various apparatuses, such as an access point (AP) and a station (STA). The AP may have a radio, and the STA may have a first radio and a second radio. The radios may have various power states. Some aspects pertain to negotiation of various communication parameters. Some aspects pertain to communication of a packet and execution of various related operations. Some aspects pertain to certain uplink (UL) and/or downlink (DL) communications. Some aspects pertain to termination or teardown of the negotiated parameters. The written description and appended drawings provide detailed descriptions regarding these and many other aspects.
US11671993B2
Aspects of the present disclosure relate to wireless communications, and more particularly, to techniques for determining quasi co-location (QCL) and/or transmission configuration information (TCI) state assumption information for a dynamic control resource set (CORESET). An example method by a user equipment (UE) generally includes receiving a first physical downlink control channel (PDCCH) in a control channel monitoring occasion, the first PDCCH indicating at least one dynamic CORESET; and receiving a second PDCCH within the dynamic CORESET, wherein the second PDCCH is received in accordance with at least one QCL assumption for the at least one dynamic CORESET.
US11671989B1
Methods and systems are provided for dynamically assigning a wireless communication protocol to one or more antenna elements of an antenna array. The methods can include receiving information associated with one or more user devices and, based on the received information, identifying one or more antenna elements of the antenna array, for switching between first and second wireless communication protocols. The methods can also include switching the one or more antenna elements between the first and second wireless communication protocols.
US11671983B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment may receive a configuration of one or more resource pools for configured grant uplink communications; receive an indication that modifies a number of resources, in the one or more resource pools, that are available for configured grant uplink communications; and transmit a configured grant uplink communication in the one or more resource pools based at least in part on the indication. Numerous other aspects are provided.
US11671982B2
The present disclosure provides a method of performing communication according to an allocated resource domain in a wireless communication system, wherein the method includes: obtaining configuration information for control channel and data channel transmission and reception; obtaining downlink control information (DCI) including physical uplink shared channel (PUSCH) transmission slot scheduling information and at least one slot format indicator corresponding to a plurality of PUSCH transmission slots, based on the configuration information; identifying the plurality of PUSCH transmission slots based on the DCI; determining a resource domain allocated for transmission of uplink data in the plurality of PUSCH transmission slots, by using at least one of the at least one slot format indicator and the DCI; and transmitting the uplink data by using the determined resource domain.
US11671979B2
Aspects described herein relate to indicating downlink control information (DCI) for multicast and/or broadcast (MB) communications using DCI formats that may be based on existing DCI formats and/or size for unicast communications, paging signals, system information signals, etc., or may include shortened formats without fields for information that may not be used in MB communications.
US11671969B2
The disclosure relates to a method implemented by a network device in a wireless communication network, the network device communicatively connected to at least a terminal device in the wireless communication network. The method comprises determining a corresponding configuration for simultaneous PUCCH and PUSCH transmission based on information associated with the terminal device; and transmitting a configuration signaling to the terminal device, wherein the configuration signaling carries the corresponding configuration for simultaneous PUCCH and PUSCH transmission and the configuration signaling is to be used to enable or disable simultaneous PUCCH and PUSCH transmission. The disclosure also relates to a network device performing said method.
US11671966B2
A method of transmitting data packets over a plurality of dynamically allocated resource blocks in at least one or a combination of a time, code or frequency domain on a shared channel of a wireless communication system, comprising the steps of selecting a number of resource block candidates for potential transmission of data packets destined for a receiver and transmitting the data packet to the receiver using at least one allocated resource block from the selected resource block candidates. The invention also relates to a corresponding method of decoding data packets, a transmitter, receiver and communication system.
US11671965B2
A wireless device receives one or more radio resource control (RRC) messages. The RRC messages comprise: one or more first feedback parameters for selecting first feedback radio resources of a sidelink; and one or more second feedback parameters for selecting second feedback radio resources of the sidelink. A sidelink transmission comprising sidelink control information (SCI) indicating a priority level of the sidelink transmission is received. Based on the priority level, one or more radio resources are selected from one of: the first feedback radio resources based on the one or more first feedback parameters; and the second feedback radio resources based on the one or more second feedback parameters. A hybrid automatic repeat request (HARQ) feedback for the sidelink transmission is transmitted via the selected one or more radio resources.
US11671964B2
A wireless device receives a physical downlink control channel (PDCCH) that may include a downlink control information (DCI) scheduling a physical downlink shared channel (PDSCH). In an embodiment, the PDCCH may include PDCCH candidates from search space sets, associated with control resource sets (coresets), that are configured for repetition. The wireless device may also receive a transport block via the PDSCH, where the resource block (RB) numbering of the PDSCH starts from a lowest RB of a coreset with the lowest index among the coresets.
US11671962B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment may receive scheduling information that schedules a shared channel that is associated with a first beamforming configuration; determine that a gap between the shared channel and a resource associated with a second beamforming configuration fails to satisfy a threshold, wherein the UE is configured to monitor the resource associated with the second beamforming configuration; and modify at least one of the gap to satisfy the threshold or the second beamforming configuration to match the first beamforming configuration based at least in part on determining that the gap fails to satisfy the threshold. Numerous other aspects are provided.
US11671956B2
Methods, systems, and devices for wireless communications are described. Wireless communications systems may support beam measurements triggered by a wake-up signal (WUS) and that triggers an active duration of a receiving user equipment (UE). The WUS may trigger the receiving UE to perform a beam sweeping procedure during a beam measurement occasion that immediately preceding the active duration, or the UE may perform the beam sweeping procedure in the WUS resource itself. A UE may perform beam measurement procedures during active durations of a discontinuous reception (DRX) cycle, or outside of active durations of the DRX cycle. A receiving UE may be configured with a timing for performing a beam measurement procedure based on one or more offset values. The timing offset values may indicate a timing during active durations or prior to active durations.
US11671955B2
Wireless communications systems and methods related to reducing the signaling overhead for configuring a common reference signal used in performing coarse power control of multiple spatial domain multiplexing (SDM) uplink streams are provided. A base station may be in communication with a UE via multiple SDM streams directed from the same panel of the respective device. The base station may configure a common pathloss reference signal for the SDM streams of the same panel for the UE. This may include sending a list of possible pathloss reference signal configurations to the UE, and then identifying which configuration to use for the pathloss reference signal for the group of SDM streams. Once known, the UE may measure the reference signal for open loop power control. The BS may occasionally reconfigure the common reference signal for the grouped SDM streams.
US11671954B2
Embodiments of a user equipment (UE) configured for operation in a fifth generation (5G) new radio (NR) network are disclosed herein. In some embodiments, a media access control Layer (MAC) control element (CE) (MAC CE) may activate a spatial relation info for a sounding reference signal (SRS) resource for two or more indicated component carriers (CCs). The spatial relation info for the SRS resource for the two or more indicated CCs may be applied in response to the activation. The SRS resource may be transmitted in the two or more indicated CCs with a same spatial transmission filter that is used for another reference signal configured in the spatial relation info when the UE is configured with one or more SRS resource configurations and when the spatial relation info is activated.
US11671953B2
A media rendering device and method for scan of channels on the media rendering device is provided. The media rendering device determines a first geographical region associated with a location of the media rendering device. A first set of over-the-air (OTA) channels may be communicated in the first geographical region. The media rendering device determines a second geographical region within a threshold distance from the location of the media rendering device. A second set of OTA channels may be communicated in the second geographical region. The media rendering device receives a first user input to scan the first set of OTA channels and the second set of OTA channels, and configures the first set of OTA channels and the second set of OTA channels on the media rendering device, based on the scan of the first set of OTA channels and the second set of OTA channels.
US11671952B2
Embodiments of the present disclosure relate to frequency or RAT selection based on slice availability. In one aspect, a core network function is provided for determining information for RAT and/or frequency selection based on knowledge of network slices and providing that information to a RAN node, which may provide that information to a UE. The information may be a RFSP index or other index parameter, which may be set based on subscription related information or other information. Slice knowledge may include knowledge of availability of network slices at the network, active slices for the UE, slices to which the UE is registered or connected, and/or slices to which the UE is allowed access. In another aspect, a RAN node performs mapping to mobility policies for UE active or idle mobility based on the determined information along with slice or subscription information provided by a CN node.
US11671948B2
A method of supporting active bandwidth part (BWP) switching under carrier aggregation (CA) is proposed. To avoid longer switching delay and multiple interruptions in other component carriers (CCs)/cells, the starting time of the later active BWP switching in one cell should fall outside the switching delay of the earlier active BWP switching in another cell. If the later active BWP switching is DCI-based, then the network should schedule the later active BWP switching outside the switching delay of the earlier active BWP switching. If the later active BWP switching is timer-based, then the UE should not perform the later active BWP switching until the earlier active BWP switching is completed.
US11671945B2
In dense Wireless Local Area Network (WLAN) deployments, Access Points (APs) in other Extended Service Sets (ESSs) can be hidden (a first AP does not receive signals from a third AP). However, these APs in other ESSs can still interfere with communications between the third AP and the devices communicating with the first AP. To improve service to that device in that situation, the first AP needs information about the third AP in the first AP's decision making processes. In these situations, a second AP, in contact with the third AP, can share information about the third AP with the first AP so that the first AP can avoid colliding with the third AP.
US11671941B2
An embodiment of the present invention relates to a signal transmission method for transmitting a signal by a sidelink terminal in a wireless communication system, the method comprising the steps of: transmitting a physical sidelink control channel (PSCCH) by using a plurality of symbols in a slot; and transmitting a physical sidelink shared channel (PSSCH) related to the PSCCH, wherein the number of symbols used for the PSCCH transmission is changed according to a change in the number of symbols included in the slot.
US11671940B2
Methods, systems, and devices for wireless communications are described. The described techniques provide for a first user equipment (UE) establishing a sidelink connection with a second UE. The first UE may identify a frame structure for the first UE to communicate with a base station. The frame structure may include one or more downlink slots and one or more uplink slots. The base station may indicate a set of resources for the sidelink connection with the second UE. The set of resources may include at least one downlink slot of the one or more downlink slots. In accordance with the indication, the first UE may communicate with the second UE on the sidelink connection and using at least one beam and the indicated set of resources. The communication with the second UE may utilize at least the resources in the at least one downlink slot.
US11671935B2
A communication technique that combines a 5G communication system for supporting a data rate that is higher than that of a beyond 4G system with IoT technology, and a system thereof are provided. The technique may be applied to intelligent services on the basis of 5G communication technology and IoT related technology, such as smart home, smart building, smart city, smart car or connected car, health care, digital education, retail, etc. A method of performing access deregistration by a user equipment (UE) and an apparatus therefor are provided. The method includes, when the UE is registered on both 3rd generation partnership project (3GPP) access and non-3GPP access, transmitting, to an access and mobility management function (AMF), a deregistration request message to deregister the non-3GPP access over the 3GPP access, and receiving, from the AMF, a deregistration accept message corresponding to the deregistration request message over the 3GPP access.
US11671934B2
The present disclosure relates to a pre-5th generation (5G) or 5G communication system to be provided for supporting higher data rates beyond 4th generation (4G) communication system such as long term evolution (LTE). Embodiments herein disclose methods for managing an on-boarding procedure in a wireless communication network. The method includes triggering, by a User Equipment (UE), a registration request for an on-boarding procedure to a network entity. Further, the method includes receiving, by the UE, a Non-access stratum (NAS) message comprising at least one information from the network entity based on the registration request. Further, the method includes performing, by the UE, at least one action based on the at least one received information. Further, the method includes managing, by the UE, the on-boarding procedure in the wireless communication network based on the at least one action.
US11671929B2
Techniques, systems, and devices for wireless communications are described. A user equipment (UE) may be in communication with a first and second transmitting device (e.g., by sidelink communication links). The UE may receive, from the first transmitting device, a first reference signal on a first set of resources. The UE may additionally receive, from the second transmitting device, a second reference signal on a second set of resources that overlap in the time domain with the first set of resources. In some cases, the first and second set of resources may additionally overlap in the frequency domain. The UE may determine synchronization information for time tracking or frequency tracking of sidelink communications with the first and second transmitting devices based on the first and second reference signals. The UE may communicate with the first and second transmitting devices based on the synchronization information for time tracking or frequency tracking.
US11671897B2
A distributed wireless gateway comprises several switches. Each switch is coupled to a respective set of wireless access points. When a given switch receives a packet from one of its wireless access points, it creates a mapping between that access point and the host that sent the packet to the access point. The given switch advertises to other switches in the distributed wireless gateway reachability information that maps that host to the switch, enabling the other switches to identify the given switch as the next hop when they receive a packet destined for that host.
US11671891B2
A method for UE route selection policy (URSP) rule matching is proposed. URSP is used by a UE to determine if a detected application can be associated to an established PDU session, can be offload to non-3GPP access outside a PDU session, or can trigger the establishment of a new PDU session. The UE first finds a non-default URSP rule with a matching traffic descriptor to the application. When the UE fails to find existing PDU session or setup new PDU session with any or the route selection descriptors of the non-default URSP rule, the UE moves to another non-default URSP rule, if any, and try the matching. If all non-default URSP rules cannot be matched with the application, then the UE tries the default URSP rule, which includes a match-all traffic descriptor.
US11671886B2
Embodiments include methods for a user equipment to perform measurements on a plurality of target cells in a radio access network. Embodiments include receiving a measurement configuration relating to one or more radio resource operations and comprising first and second sets of conditions related to respective first and second target cells; and performing measurements of radio signals associated with the first target cell and/or the second target cell. Embodiments also include performing a radio resource operation toward the first target cell, based on a first determination that the measurements of the radio signals associated with the first target cell fulfill at least one condition of the first set. Embodiments also include performing the radio resource operation toward the second target cell, based on a second determination that the measurements of the radio signals associated with the second target cell fulfill at least one condition of the second set.
US11671885B2
Performing restricted based handover. In one aspect, there is a method performed by a user equipment (UE) served by a serving network node. The method comprises determining that a handover condition exists, wherein the handover condition is a handover triggering condition or a handover inhibiting condition. The method further comprises as a result of determining that the handover triggering condition exists, triggering a handover of the UE from the serving network node to a target network node, or as a result of determining that the handover inhibiting condition exists, inhibiting a handover of the UE from the serving network node to the target network node. Determining that the handover condition exists comprises: determining that a power restriction exists i) for an UL channel between the UE and the serving network node or ii) for an UL channel between the UE and the target network node.
US11671884B2
The present disclosure relates to connection reestablishment methods and apparatus. In one example method, when a handover fails, a terminal reverts back to a source configuration, and obtains a selected cell. The terminal sends a connection reestablishment request to a selected radio access network device. The terminal receives a first message from the selected radio access network device, where the first message includes indication information used to indicate to derive an access network key based on a core network key. The terminal obtains a first core network key based on the indication information, and derives a first access network key based on the first core network key. The terminal communicates with the selected radio access network device by using the first access network key.
US11671883B2
An IAB node switching method is applied to a relay system, and the relay system includes a donor base station and a first IAB node. The donor base station provides a gateway function for the first IAB node. The first IAB node receives a first BWP configuration from the donor base station, where the first BWP configuration includes a BWP configuration of a second IAB node, and the second IAB node is a candidate upper-level node of the first IAB node. The first IAB node switches to the second IAB node. According to the IAB node switching method, the IAB node, and the donor base station that are provided in this application, service availability of an IAB node is ensured when the IAB node has a plurality of upper-level nodes.
US11671882B2
A technique is provided that is for efficiently avoiding interference that occurs due to simultaneous communication with different radio systems. An aspect of the present invention relates to user equipment including a cellular communication controller that controls first radio communication with a cellular system, and a different radio system communication controller that controls second radio communication with a different radio system other than the cellular system, wherein the cellular communication controller reports, to the cellular system, interference notice indicating interference between the first radio communication and the second radio communication, based on information obtained in the first radio communication.
US11671871B2
Methods and apparatus are provided for the RRC message segmentation. In one novel aspect, the UE obtains the size Z of the RRC message and the size limit L of the underlying transmission at layer S of the UE protocol stack, wherein the layer S either the RRC layer, the PDCP layer, or a sublayer between an RRC layer and a PDCP layer. The UE triggers RRC message segmentation upon detecting Z is greater than L. In another embodiment, the layer R of the protocol stack of the UE receives, in order, a sequence of chunks of an RRC message, reassembles of the RRC message, wherein the layer R is selected from a same layer as the layer S and a layer higher than the layer S. In one novel aspect, the size limitation L is either predefined or obtained through network notification or UE inquiry.
US11671865B2
Techniques for monitoring and configuring a mesh network are discussed herein. A centralized database may receive, from one or more access points that make up the mesh network, conditions data associated with the access points and the backhaul links between the access points. The centralized database may determine a radio frequency (RF) resource that should be used for the backhaul links to optimize the mesh network and send an instruction to the access point to operate using the RF resource.
US11671864B2
A joint transmission method includes sending, using a first access point (AP), a buffer indication to a second AP instructing the second AP to buffer first data, sending the first data to a station (STA), receiving a response frame from the STA, determining, based on the response frame, whether a joint transmission procedure needs to be initiated, sending a joint transmission indication to a third AP in response to determining to initiate the joint transmission procedure, where the joint transmission indication instructs the third AP to send second data to the STA, where the second data comprises all or a part of the first data, and where the third AP is the second AP, and sending the second data.
US11671854B2
A cell beam failure processing method, a mobile communication terminal and a network side device. The cell beam failure processing method applied to a mobile communication terminal comprises: performing a detection operation on a target cell, the detection operation at least comprising a beam failure detection; and according to a detection result, performing, in the target cell, a first operation of accelerating beam failure processing.
US11671844B2
Methods, systems, and devices for wireless communications are described. A communication device, such as a user equipment (UE) may transmit a message to a base station (e.g., a NodeB, an eNodeB (eNB), a next-generation NodeB or a giga-NodeB (either of which may be referred to as a gNB)) in wireless communications with the UE. The message may include a UE capability to append a preamble waveform to an uplink transmission to the base station. In some examples, a preamble waveform may include a Wi-Fi preamble or a new radio unlicensed (NR-U) preamble. Based on the UE capability, the base station may determine and transmit a preamble configuration to the UE, which the UE may use to generate and append a preamble waveform to another message for an uplink transmission to the base station.
US11671843B2
Improved methods, systems, devices, or apparatus that support prioritization for potential shared data transmissions are described. In some cases, a receiving device may identify transmission parameters for shared transmissions including a scheduled shared transmission and determine resources for a potential shared transmission. The receiving device may monitor for the shared transmission(s) based on priority rules for a shared transmission and the potential shared transmission. For instance, the receiving device may be configured to receive only one of the scheduled or potential shared transmission. In some cases, the transmitting device may consider the priority rules and determine whether to transmit or drop one or more shared transmissions.
US11671840B2
One embodiment is directed to a centralized radio access network (C-RAN) system that is configured so that physical layer processing for the wireless interface is split so that some of the physical layer processing is performed in a controller and some of the physical layer processing is performed in a plurality of radio points. The system is configured so that scrambling of first downlink data to be communicated to a UE over the wireless interface is performed in the controller and so that scrambling of second downlink data to be communicated to said UE over the wireless interface is performed in one of the radio points. Other embodiments are disclosed.
US11671839B2
The present invention relates to a spectrum management device and method, a wireless network management device and method, and a medium. According to one embodiment, an electronic device for spectrum management comprises a processing circuit. The processing circuit is configured to perform control in order to send spectrum supply and demand information to one or more first spectrum management nodes and/or receive the spectrum supply and demand information from the one or more first spectrum management nodes. The spectrum supply and demand information is associated with spectrum supply and demand of the electronic device and/or of a wireless network management node managed by the first spectrum management node.
US11671835B2
Embodiments described herein provide for a satellite device that can be associated with a user account of a minor aged (e.g., child or adolescent) user that does not have a smartphone that can be used as a companion device to the satellite device. The satellite device can be configured to be used as a primary device, without reliance upon a paired smartphone. Certain information can be synchronized with the satellite device via the association with the family account. During initial configuration, a set of cryptographic keys can be generated to associate the account of the satellite device with the set of accounts in the family. The satellite device can then access calendars, media, or other data that is shared with user accounts within a family of user accounts.
US11671829B1
Techniques for a server-based association of a device with a user account are described. In an example, a computer system receives, from a second device, first data of a first device. The first data indicates a request for a first association between the first device and a user account. The computer system determines that the first data is valid based on second data associated with the first device. Based on the first data being valid, the computer system sends, to the second device, third data to initiate a user authentication. The computer system then receives, from the second device, a user identifier based on the user authentication and determines that a second association between the user identifier and the user account already exists. The computer system causes the first association between the first device and the user account to be generated based on the second association.
US11671819B2
A communications management system for implementing a freeze on electronic transactions. For example, a device management system provides a means of preventing the porting of at least one communication device account—such as a cellular phone number—from one carrier to another through a list of identifiers that include phone numbers, device identifiers, or personal identifiers that have been enrolled in the device management system through an interface by an authorized user. Advantageously, the device management system provides a revision to the existing phone porting architecture and enables fraud detection and prevention.
US11671817B2
An embodiment of the invention includes a non-transitory computer-readable medium storing instructions that, when executed by a computer, cause the computer to carry out a method for scheduling at least one activity to achieve a time-varying energy balance of a power system. A mission plan for a mission is received. The mission plan includes at least one activity and at least one route. Each route of the at least one route includes at least one time and at least one location. A plurality of power load identifications is received for at least one time-varying power load for use in the mission plan. A plurality of energy storage device identifications is received for at least one energy storage device. Based on the plurality of power load identifications, a power requirement required to complete the mission plan is determined using the at least one power load. Based at least in part on the mission plan and the plurality of energy storage device identifications, an available power for the mission is determined. The at least one activity along the at least one route is scheduled based on the power requirement and the available energy.
US11671815B2
Certain aspects of the present disclosure to techniques for sidelink discovery in millimeter wave (e.g., Frequency Range 2 (FR2), or 24.25 GHz to 52.6 GHz) bands. For example, the disclosed techniques provides generating a sidelink discovery message including device information of the UE and non-device information. The sidelink discovery message is outputted for transmission. A sidelink connection with a receiver (Rx) UE can then be established after the output of the sidelink discovery message. Very often, beam training is required for FR2 communications. After beam sweep, the transmitter (Tx) UE and the Rx UE become aware of the primary beam directions and need to discover each other on a device level, by associating a beam pair link to a peer UE. As FR2 link often have high overhead to establish and maintain, the disclosed techniques enables device level and service level discovery using the discover message.
US11671814B1
In various examples, upon successful transmission of a device-based hybrid (DBH) location from a UE to a cellular network upon that UE placing an Enhanced 911 (E911) call, a horizontal uncertainty associated with the DBH location is taken into account. If that uncertainty reaches a threshold value, alternative location information in the form of one or more of a Cell Identity (CID) or an Enhanced Cell Identity (E-CID) associated with the UE can be used in generating a location report that is then sent to a Public Safety Answering Point. As a result, first responders may be able to more quickly locate distressed E911 callers.
US11671803B2
The embodiments herein relate to a method performed by a Control Plane (CP) function for handling a credit pool comprising granted service units to be used by multiple services. The multiple services are grouped in at least one first Rating Group (RG). The CP function creates an individual Usage Reporting Rule (URR) for each of the at least one first RG. Each individual URR comprises a first credit pool threshold. The CP function provides the individual URRs to a User Plane (UP) function. The CP function creates a Usage Reporting Rule for the Credit Pool (URR CRPL). The URR CRPL comprises instructions to the UP function to aggregate service unit usage for all individual URRs for all first RGs. The URR CRPL further comprises the first credit pool threshold. The CP function provides the URR CRPL to the UP function.
US11671794B2
A device includes a tuner configured to tune a broadcast signal; a pilot detector configured to detect pilots in the tuned broadcast signal; a de-framer configured to parse a signal frame of the broadcast signal. Further, the signal frame carries Physical Layer Pipe (PLP) data, and the signal frame includes a preamble and at least one subframe. The device also includes a decoder configured to decode the PLP data.
US11671777B2
A system and method for selecting audio capture sensors of wearable devices in obtaining voice data. The method provides obtaining signals associated with the user's voice at first and second wearable devices, comparing energy levels of the first and second signals, and selecting one or more audio capture sensors based on the energy levels of each signal. Due to the symmetry of the acoustic energy produced by the user's voice to a first and second wearable device, any difference in energy level between the total energy obtained by the first wearable device and the total energy obtained by the second wearable device can be attributed solely to ambient noise. Thus, the device with the higher total energy has a lower signal-to-noise ratio and selection of an audio capture sensor of the other wearable device with a higher signal-to-noise ratio is provided to obtain voice data moving forward.
US11671775B2
The disclosure relates generally to microphone and vibration sensor assemblies (100) having a transducer (102), like a microelectromechanical systems (MEMS) device, and an electrical circuit (103) disposed in a housing (110) configured for integration with a host device. The electrical circuit includes a variable gain signal processing circuit (203) that processes an electrical signal from the transducer and a gain control circuit (204) that compensates for transducer sensitivity drift caused by variation in an environmental condition of the transducer, and electrical circuits therefor.
US11671766B2
A microphone device includes a base and a microelectromechanical system (MEMS) transducer and an integrated circuit (IC) disposed on the base. The microphone device also includes a cover mounted on the base and covering the MEMS transducer and the IC. The MEMS transducer includes a diaphragm attached to a surface of the substrate and a back plate mounted on the substrate and in a spaced apart relationship with the diaphragm. The diaphragm is attached to the surface of the substrate along at least a portion of a periphery of the diaphragm. The diaphragm can include a silicon nitride insulating layer, and a conductive layer, that faces a conductive layer of the back plate. The MEMS transducer can include a peripheral support structure that is disposed between at least a portion of the diaphragm and the substrate. The diaphragm can include one or more pressure equalizing apertures.
US11671763B2
A microphone assembly comprising a housing, a single flexible diaphragm, and a rigid backplate. The backplate may be coated with a parylene configured to help reduce the flatness deviation of the backplate across the diameter of the backplate. A plurality of openings may extend from the top portion of the backplate to the bottom portion of the backplate.
US11671762B2
Provided is a speaker, including a frame; a vibration unit fixed to the frame; and a magnetic circuit unit driving the vibration unit to vibrate and produce sound and provided with a magnetic gap. The vibration unit includes a diaphragm, a voice coil, and an elastic support assembly; the diaphragm includes a diaphragm body, a diaphragm fixing portion, a diaphragm supporting portion, and a reinforcing portion; the diaphragm fixing portion has a rectangular structure with round corners, and the diaphragm supporting portion is located at the round corners; the frame is provided with an assembly hole; the vibration unit further includes a fixing ring; and the elastic support assembly includes an elastic member and an auxiliary diaphragm. With this structure, the overall strength and reliability of the speaker are improved.
US11671760B2
A speaker device includes: a housing provided with an accommodating space, and a sounding member accommodated in the accommodating space. The sounding member includes a magnetic circuit unit and a vibration unit provided with a diaphragm. The housing includes an upper housing and a lower housing. The lower housing includes: a metal bottom wall, lower metal side walls, and, and sealing connectors respectively provided between two adjacent lower metal side walls of the plurality of lower metal side walls. An end of the lower metal side wall close to the upper housing bends and extends in a direction perpendicular to a vibrating direction of the diaphragm to form a bending edge. The bending edge and a bottom surface of the sealing connectors jointly form a sealing surface. The sealing surface is connected to the upper housing to seal. The speaker device can increase the powder filling space.
US11671757B2
An audio processor for providing loudspeaker signals on the basis of input signals, like channel signals and/or object signals, obtains an information about the position of a listener and an information about the position of a plurality of loudspeakers, or sound transducers. The audio processor selects one or more loudspeakers for a rendering of the objects and/or of the channel objects and/or of the adapted signals, derived from the input signals. The selection depends on the information about the position of the listener and about the positions of the loudspeakers and takes into consideration the information about one or more acoustic obstacles. The audio signal processor renders the objects/channel objects/adapted signals derived from the input signals, in dependence on the information about the position of the listener and about positions of the loudspeakers, in order to obtain the loudspeaker signals, such that a rendered sound follows a listener.
US11671744B2
This application provides a wearable device. The wearable device includes a bearing body and a Bluetooth headset. An accommodating slot is disposed on the bearing body, a first locking component is disposed on the Bluetooth headset, and a second locking component is disposed on the bearing body. The Bluetooth headset is accommodated in the accommodating slot. The first locking component can be locked with the second locking component. The Bluetooth headset includes an operation portion. The operation portion is configured to: unlock the first locking component and the second locking component, and push the unlocked Bluetooth headset out of the accommodating slot. The wearable device in this application can directly accommodate the Bluetooth headset, to provide more convenience to a user.
US11671739B2
A headset includes a tissue transducer on a carriage that translates along a temple portion of the headset. The carriage is configured to contact the helix root of a user's ear. The helix root provides a reference point, and when the carriage is contact with the helix root, the tissue transducer is configured to be located in a target area. By maintaining a fixed location of the tissue transducer relative to the helix root of the user's ear, the tissue transducer may be accurately positioned, even for users with different head shapes and sizes.
US11671732B2
A system can include a splitter configured to receive a first optical signal carrying first data and generate a first optical signal copy and second optical signal copy. Also included is at least one optical processing path includes at least one optical encoder configured to transform the first optical signal copy into a second optical signal carrying the first data and an additional optical feature not present in the first optical signal, at least one optical modulator configured to optically modulate the second optical signal according to a compare data to generate an optical match signal that indicates matches between the compare data and the first data, and at least one photodetector configured to generate an electrical match signal in response to the optical match signal. Corresponding methods are also disclosed.
US11671729B2
A photoelectric conversion device comprising a pixel unit in which a plurality of pixels each comprising a photoelectric conversion element are arranged in a matrix, and a plurality of delta-sigma AD converters each configured to convert a signal output from the pixel unit into a digital signal, is provided. The plurality of delta-sigma AD converters are divided into at least two groups having different timings of starting AD conversion from each other when converting, into digital signals, signals output from the pixels selected out of the plurality of pixels via a common pixel control line.
US11671727B2
An image sensing device includes a first test block, a second test block, and a readout block. The first test block includes a plurality of first image sensing pixels structured to convert incident light carrying an image into a first pixel signal indicative of the image, and a first heating element structured to transmit heat to the first image sensing pixels. The second test block includes a plurality of second image sensing pixels that each include a light blocking structure to be shielded from receiving incident light to generate a second pixel signal without being directly exposed to the incident light, and a second heating element structured to transmit heat to the second image sensing pixels. The readout block processes the first pixel signal output from the first test block and the second pixel signal output from the second test block.
US11671725B2
An image sensing device includes first and anterior comparators and first and second posterior comparators. The first anterior comparator generates a first anterior comparison signal based on a first pixel signal and a ramp signal. The first posterior comparator performs a first comparison that compares the first anterior comparison signal with a first reference signal under a first comparison precondition and generates a first posterior comparison signal corresponding to a result of the first comparison. The second anterior comparator generates a second anterior comparison signal based on a second pixel signal and the ramp signal. The second posterior comparator performs a second comparison that compares the second anterior comparison signal with a second reference signal under a second comparison precondition different from the first comparison precondition. The second posterior comparator generates a second posterior comparison signal corresponding to a result of the second comparison.
US11671722B2
An image sensing device for measuring a distance between the image sensing device and a target object is disclosed. The image sensing device may include a plurality of image sensing pixels formed in a substrate, each image sensing pixel including a first electrical contact tap and a second electrical contact tap structured to generate a current in the substrate and capture photocharges generated by light reflected from an object and incident on the image sensing pixel array and migrating by the current to measure a distance to the object by performing demodulation operations based on the photocharges, and a demodulation driver coupled to the image sensing pixel array to apply, to the first electrical contact tap and the second electrical contact tap, a first demodulation control signal and a second demodulation control signal for generating the current, respectively.
US11671721B2
A solid-state imaging device including an imaging area where a plurality of unit pixels are disposed to capture a color image, wherein each of the unit pixels includes: a plurality of photoelectric conversion portions; a plurality of transfer gates, each of which is disposed in each of the photoelectric conversion portions to transfer signal charges from the photoelectric conversion portion; and a floating diffusion to which the signal charges are transferred from the plurality of the photoelectric conversion portions by the plurality of the transfer gates, wherein the plurality of the photoelectric conversion portions receive light of the same color to generate the signal charges, and wherein the signal charges transferred from the plurality of the photoelectric conversion portions to the floating diffusion are added to be output as an electrical signal.
US11671719B1
A pixel arrangement comprises a photodiode, a circuit node, a transfer transistor coupled to the photodiode and to the circuit node, an amplifier with an input coupled to the circuit node, a first and a second capacitor, a first transistor coupled to an output of the amplifier and to the first capacitor, a second transistor coupled to the first transistor and to the second capacitor, and a coupling transistor coupled to the circuit node and to the second capacitor.
US11671717B2
Embodiments of the disclosure provide systems and methods for motion capture to generate content (e.g., motion pictures, television programming, videos, etc.). An actor or other performing being can have multiple markers on his or her face that are essentially invisible to the human eye, but that can be clearly captured by camera systems of the present disclosure. Embodiments can capture the performance using two different camera systems, each of which can observe the same performance but capture different images of that performance. For instance, a first camera system can capture the performance within a first light wavelength spectrum (e.g., visible light spectrum), and a second camera system can simultaneously capture the performance in a second light wavelength spectrum different from the first spectrum (e.g., invisible light spectrum such as the IR light spectrum). The images captured by the first and second camera systems can be combined to generate content.
US11671714B1
Systems and techniques are described herein for capturing images. For instance, a process can include obtaining a first image associated with a first exposure setting and obtaining a second image associated with a second exposure setting that is different from the first exposure setting. The process can include obtaining motion information associated with at least one of the first image and the second image and determining, based on the motion information, that motion associated with a first pixel of the first image exceeds a threshold. The process can include generating, based on the motion information, a fused image including a first set of pixels from the first image and a second set of pixels from the second image. The first set of pixels from the first image includes the first pixel based on the determination that the motion associated with the first pixel exceeds the threshold.
US11671709B2
In accordance with the present disclosure, a method for controlling an anti-vibration actuator is provided such that the position of the applied opposite rotation in a gyro stabilization process can be measured using capacitance sensing. In some embodiments, a rotor plate attached to a rotor and a stator plate attached to a stator can be used to create a capacitance. When the rotor moves, a distance change value of the rotor can be calculated based on the capacitance measured between the rotor plate and the stator plate. In these embodiments, the cost and the form factor of the aforementioned anti-vibration actuator are reduced compared to implementation of magnetic field sensors in the anti-vibration actuator.
US11671708B2
An imaging device in which an imaging sensor that captures an image and a display unit that displays the image are provided includes: an image processing unit configured to perform roll correction on the image; a control unit configured to control an output of the image; and a display control unit configured to display the output image on the display unit. The image processing unit performs the roll correction such that a degree of correction of the roll correction when the image is to be output to only the display unit is less than a degree of correction of the roll correction when the image is to be output to the display unit and an output destination other than the display unit.
US11671706B2
An optical device is provided that comprises a multi-order diffractive Fresnel lens (MOD-DFL) and an achromatizing compensation mechanism that reduces refractive dispersion created by the MOD-DFL, thereby reducing the focal range of the MOD-DFL. A method is also provided of using the optical device in an image processing system to obtain images of an object and processing the images to perform image enhancement.
US11671697B2
The present disclosure generally relates to embodiments for video communication interfaces for automatically adjusting a displayed representation of a field-of-view of a camera in response to detecting a change in a scene.
US11671690B2
A camera module of an embodiment may comprise: a first holder in which a filter is mounted; a lens barrel that is provided to be vertically movable in a first direction with respect to the first holder; a lens operating device that comprises a terminal and moves the lens barrel in the first direction; a first circuit board that is disposed under the first holder and on which an image sensor is mounted; a soldering portion for electrically connecting the terminal of the lens operating device to the first circuit board; and a coupling reinforcement portion that is disposed to face the soldering portion and couples the lens operating device and the first circuit board.
US11671687B2
An information handling system peripheral camera is built by inserting a subassembly into a cylindrical housing and enclosing the subassembly with a bezel at the front and cover at the rear. The cylindrical housing is extruded with aluminum to have seams formed along the length of the interior. The seams provide alignment of the subassembly and are machined at the front and rear to form threads that accept screws to couple the bezel and rear cover to the cylindrical housing. To hide the screws, a back plate couples over the rear cover and an opaque treatment is applied to a circumference of a cover glass placed over the bezel.
US11671686B1
A camera module may be assembled from a base component formed of a horizontal surface and having a raised wall that extends vertically from the horizontal surface and a housing component having a vertical surface that affixes to, with adhesive, the raised wall of the base component. Assembly of the camera module may include dispensing adhesive along a top edge of the raised wall to partially overhang the edge and placing the housing component down onto the base component. During assembly, the adhesive that is distributed on the top surface of the raised wall can be sheared or otherwise distributed by the action of the a corresponding wall of the housing component moving to past the top surface and causes at least some of the adhesive to spread between opposing surfaces of respective vertical walls of the base component and the housing component of the camera. The adhesive is then cured.
US11671685B2
An image capturing apparatus includes a camera unit, a pair of supporting members, a fixation member, a drive member, a heat generating member, a first cover member, and a second cover member. The second cover member has a first opening into which air from outside flows and a second opening from which air inside the second cover member flows to outside, The fixation member has a third opening into which air that has flowed out of the second opening flows, and a fourth opening from which air inside the fixation member flows to outside. The heat generating member is disposed in a flow channel of air flowing from the first opening to the second opening.
US11671681B2
A method is provided for processing an error during restitution of digital content during a multimedia session on a terminal. The session offers a plurality of representations of the digital content which are described in a medium carrying information describing the multimedia session and transmitted independently of the representation data. The method includes, following the obtaining of the description-carrying medium, acts of obtaining, for at least one representation indicated in the description information-carrying medium, at least one item of information regarding guarantee of availability of the data of the representation on a server; of comparing the information regarding guarantee of availability of the data of the representation on the server with at least one predetermined value; of selecting a fallback representation as a function of the result of the comparison, and upon detecting a restitution error, of toggling to the fallback representation selected.
US11671679B2
Example methods, apparatus, systems and articles of manufacture to implement under-addressable advertisement measurement are disclosed. Example apparatus disclosed herein determine a tuned under-addressable advertisement duration and a total tuned advertisement duration for a first television broadcast at a first monitored site, the tuned under-addressable advertisement duration and the total tuned advertisement duration determined based on (i) return-path tuning data associated with the first monitored site, (ii) linear advertisement log data associated with a broadcast area including the first monitored site, and (iii) addressable advertisement log data associated with the first monitored site. Disclosed example apparatus also determine an under-addressable advertisement factor for the first television broadcast based on the tuned under-addressable advertisement duration and the total tuned advertisement duration, and adjust an input advertisement rating for the first television broadcast based on the under-addressable advertisement factor to determine an under-addressable advertisement rating for the first television broadcast.
US11671678B2
A data processing method is provided. The method includes receiving a single aggregated data stream from a data aggregation device. The aggregated data stream includes multiple data packets captured by multiple video capture devices respectively, and each data packet has an identifier of the video capture device that captures the data packet. The method further includes determining multiple videos associated with the multiple video capture devices from the aggregated data stream based on the identifiers. Each video includes data packets with the same identifier.
US11671672B2
Object selection reward data, including rewards for viewer selection of objects of interest in presented media content of a video stream may be electronically communicated to the user automatically when the user electronically selects the object of interest as it is shown in the screen. Provided is improved functionality to activate an image in the video stream into an object that then can be selectable or become a part of an application running on a receiving device such as a set-top box or other media device. The received video may or may not be taken over by the application running on the set-top box. The video scaling can be preserved, and a part of the application. Alternatively, the whole of the visible video screen may not be a part of the application.
US11671667B2
Methods, systems, and media for presenting contextual information in connection with media content are provided. In some embodiments, the method comprises: causing a media content item to be presented on a user device; receiving, at a first time point from a user of the user device, a user input to display one or more contextual interfaces that present information related to the media content item; identifying a plurality of contextual interfaces based on content included in the media content item at the first time point; causing the media content item to be presented in a first portion of a display of the user device and causing a first contextual interface from the plurality of contextual interfaces to be presented in a second portion of the display of the user device; identifying, at a second time point, an update to the first contextual interface based on content included in the media content item at the second time point; and modifying the first contextual interface based on the update identified at the second time point.
US11671660B2
Example apparatus disclosed herein are to compare (i) ratios of program ratings to corresponding network ratings with (ii) a threshold to determine adjusted viewing data for respective sites during a monitoring interval, the program ratings and the corresponding network ratings determined for programs tuned on corresponding networks at the respective sites during the monitoring interval, the adjusted viewing data for a combination of a first program and a first site to represent an adjusted amount of time the first program was presented at the first site. Disclosed example apparatus are also to cluster the programs into program clusters based on distances between respective combinations of pairs of the programs, the distances based on the adjusted viewing data. Disclosed example apparatus are further to output information to identify the program clusters.
US11671652B2
In a substitutional media system, one of a set of media items is selected at a programme receiver for output within a predefined programming slot, based on profile data available at the receiver. Sets of the media items are scheduled to slots according to one or more constraints pertaining to that slot and/or to media items scheduled to other slots. The receiver may select a media item for output in a slot by resolving constraints with media items scheduled to other slots, or selected for output in other slots.
US11671650B2
A set-top box with enhanced behavioral controls and system and method for use of the same are disclosed. In one embodiment of the set-top box, a wireless transceiver is located within a housing, which also interconnectively includes a signal input, a signal output, a processor, and memory. The set-top box may pair with an electronic door locking apparatus coupled to a door that is room-collocated with the set-top box in a hospitality establishment. The set-top box may then reprogram the electronic door locking apparatus as well as control amenities, such as a display, in response to presence signal from the electronic door locking apparatus.
US11671649B2
A content moving device which enables providing content stored on a first user device, such as a DVR, in a first format and resolution to be provided to a second user device, such as a portable media player (PMP) in a second format and resolution. The content moving device identifies content on the first user device as candidate content which may be desired by the PMP and receives the candidate content from the DVR. The content moving device transcodes the candidate content at times independent of a request from the PMP for the content. The content moving device may provide a list of available transcoded content to the PMP for selection, and provide selected content to the PMP. The content moving device may also provide information relating to any protection schemes of the content provided to the PMP, such as DRM rights and decryption keys. The content moving device performs the often computationally intense and time consuming transcoding of user content to enable the user to move content between different user devices in a convenient manner.
US11671648B2
Systems and methods are operable to present an enhanced electronic program guide (EPG). The enhanced EPG comprises a reduced size video, a mini guide, a single channel guide bar, and an optional preview guide bar.
US11671647B2
A system and method for enabling the selection of audio associated with one or more concurrently displayed video programs to be controlled. This system and method enable a user to select one or more concurrently displayed video programs and consequently control the routing and volume of the audio associated with one or all of the concurrently displayed video programs. The concurrently viewed videos can be presented in a picture-in-picture format.
US11671643B2
In accordance with the technique described herein, a home shopping content suitable for a specific viewer can be dynamically selected and provided using viewing histories of a home shopping channel. Particularly, a home shopping content in which a large number of viewers are interested can be provided by dynamically selecting a home shopping content using product classification groups specified for receivers using an interest index calculated based on a bounce rate defined by the technique described herein.
US11671639B2
A device may receive content data identifying television schedules for content to be provided for viewing in a first geographic location and a second geographic location, and may identify a first available time slot for content in the first geographic location and a second available time slot for content in the second geographic location. The device may identify a first set of content for the first available time slot and a second set of content for the second available time slot, and may assign values to the first and second sets. The device may determine whether the values assigned to the first and second sets satisfy a threshold value, and may cause, when a value of content in the first set fails to satisfy the threshold value, a first client device, in the first geographic location, to obtain replacement content with a value that satisfies the threshold value.
US11671633B2
Disclosed herein is a system for providing a live commerce integrated solution comprising a broadcast terminal configured to film a live broadcast for product sales, a viewer terminal configured to stream the live broadcast, and a manager server configured to provide a live broadcast platform to be accessed by the broadcast terminal and the viewer terminal.
US11671621B2
A method for video decoding includes decoding prediction information of a current block, the prediction information indicating a sub-block based inter prediction mode, the current block including a plurality of sub-blocks arranged into one or more areas. For each area, the method includes determining base motion vectors of a portion of the sub-blocks within the area, the portion including at least one non-corner sub-block of the current block, and converting the base motion vectors of the portion of the sub-blocks into respective target motion vectors. The method further includes generating reconstructed samples of the corresponding area according to the target motion vectors of the portion of the sub-blocks, and reconstructing the current block for output based on reconstructed samples of the one or more areas
US11671620B2
A load in processing of searching for a motion vector is reduced. In order to solve the problem described above, a motion vector derivation apparatus according to one aspect of the present invention that derives a motion vector to be referred to for generating a prediction image to be used for coding or decoding of a video includes a motion vector search unit configured to search for a motion vector on a prediction unit basis through matching processing. The motion vector search unit is configured to stop search of the motion vector, depending on whether or not a conditional expression according to a pixel bit-depth is satisfied.
US11671617B2
An encoder is an encoder that encodes a block in a picture using a prediction image of the block, and includes circuitry and memory. Using the memory, the circuitry: calculates a first average pixel value which is an average pixel value of first reference samples out of the first reference samples and second reference samples, The first reference samples are referable and located outside the block and adjacent to a first side of the block. The second reference samples are referable and located outside the block and adjacent to a second side of the block. When generating the prediction image, the circuitry applies the same prediction pixel value to inner samples among current samples to be processed that are included in the block. The inner samples constitute a quadrilateral region including at least two current samples in each of a horizontal direction and a vertical direction.
US11671615B2
An encoder includes circuitry and memory. Using the memory, the circuitry: in an inter prediction mode in which an affine motion vector is calculated for each of sub-blocks constituting a current block of a picture in the video, based on motion vectors of neighboring blocks of the current block, changes a shape or size of the sub-block according to a variation in direction or variation in magnitude among the motion vectors of the neighboring blocks; calculates the affine motion vector for the sub-block having the shape or size changed; and performs the motion compensation for the sub-block having the shape or size changed.
US11671613B2
The present disclosure provides methods for picture processing. The method can include: receiving a bitstream comprising a set of pictures; determining, according to the received bitstream, whether a virtual boundary is signaled at a sequence level for the set of pictures; in response to the virtual boundary being signaled at the sequence level, determining a position of the virtual boundary for the set of pictures, the position being bounded by a range signaled in the received bitstream; and disabling in-loop filtering operations across the virtual boundary.
US11671610B2
For each image in a set of images, a representation of the image at a first level of quality is derived using a first representation of the image at a second, higher level of quality and is output for processing by a decoder. Configuration data is output for processing by the decoder to enable the decoder to detect whether or not the first representation of a given image in the set of images is to be reconstructed using residual data for the given image, the residual data: (i) being useable to reconstruct the first representation using a second representation of the image at the second level of quality, the second representation being based on the representation of the image at the first level of quality, and (ii) being derived based on the first representation and the second representation.
US11671604B1
Techniques for providing content aware uniform quality for quality-defined variable bitrate encoding of videos are described. According to some embodiments, a computer-implemented method includes receiving a request at a content delivery service to encode a live video at a quality level of a plurality of quality levels of a quality-defined variable bitrate encoding, determining features for a frame of the live video, generating a first predicted quantization parameter for the frame by a first machine learning model, trained for a first objective quality metric, receiving an input of the features and the quality level, performing a real time encode of the live video based at least in part on the first predicted quantization parameter to generate an encoded live video, and transmitting the encoded live video to a viewer device.
US11671598B2
An image decoding method, which is performed by a decoding device according to the present document, is characterized by including: a step for receiving a bitstream including residual information about the current block; a step for deriving a maximum value of the number of context-encoding bins for context syntax elements coded on the basis of context included in the residual information; a step for entropy-decoding the context syntax elements on the basis of the maximum value; a step for deriving conversion coefficients for the current block on the basis of the entropy-decoded context syntax elements; a step for deriving a residual sample for the current block on the basis of the conversion coefficients; and a step for generating a reconstructed picture on the basis of the residual sample for the current block.
US11671597B2
A method can include decoding residual signals to generate quantized coefficient components; determining an inverse scan pattern and generating a quantized block using the inverse scan pattern; deriving a quantization parameter and inversely quantizing the quantized block using the quantization parameter to generate a transformed block; and inversely transforming the transformed block to generate a residual block, in which when the quantization parameter is a chroma quantization parameter, the chroma quantization parameter is generated using a luma quantization parameter and an offset parameter indicating a relationship between the luma quantization parameter and the chroma quantization parameter, the luma quantization parameter is derived using a differential quantization parameter and a quantization parameter predictor, and the differential quantization parameter is generated by entropy decoding, and parameters are set according to certain conditions.
US11671593B2
An encoder includes processing circuitry and memory. Using the memory, the processing circuitry: encodes and reconstructs an image to generate a reconstructed image; determines, according to a characteristic of a block in the reconstructed image, an interpolation method for interpolating pixels located outside a referable region including the block; interpolates the pixels located outside the referable region, using the interpolation method determined; and applies a filter to the block using the pixels interpolated.
US11671586B2
Devices, systems and methods for digital video coding, which includes using default motion candidates for video coding, are described. An exemplary method for video processing includes inserting, for a conversion between a block of a video and a bitstream representation of the video, at least one past motion candidate in a table of past motion candidates to a motion candidate list. The table of past motion candidates is derived based on past conversions. The method includes determining, after the at least one past motion candidate is inserted, that a motion candidate is not to be added to the motion candidate list. The motion candidate is derived based on the table of past motion candidates. The method also includes performing the conversion based on the motion candidate list.
US11671576B2
A method of interframe point cloud attribute decoding of video data is performed by at least one processor and includes: obtaining a first reconstructed residual; obtaining a quantization index of a second reconstructed residual; obtaining the second reconstructed residual, based on the obtained quantization index of the second reconstructed residual and the obtained first reconstructed residual; and obtaining a color attribute of a point of a point cloud by decoding the obtained second reconstructed residual or decoding a transform residual based on the obtained second reconstructed residual. The first reconstructed residual and the second reconstructed residual are each a reconstructed residual of a respective channel of the color attribute.
US11671575B2
In one example, a method performed by a processing system including at least one processor includes acquiring a first item of media content from a user, where the first item of media content depicts a subject, acquiring a second item of media content, where the second item of media content depicts the subject, compositing the first item of media content and the second item of media content to create, within a metaverse of immersive content, an item of immersive content that depicts the subject, presenting the item of immersive content on a device operated by the user, and adapting the presenting of the item of immersive content in response to a choice made by the user.
US11671564B2
An example method includes receiving, from one or more sensors associated with an autonomous vehicle, sensor data associated with a target object in an environment of the vehicle during a first environmental condition, where at least one sensor of the sensor(s) is configurable to be associated with one of a plurality of operating field of view volumes. The method also includes based on the sensor data, determining at least one parameter associated with the target object. The method also includes determining a degradation in the parameter(s) between the sensor data and past sensor data, where the past sensor data is associated with the target object in the environment during a second environmental condition different from the first and, based on the degradation, adjusting the operating field of view volume of the at least one sensor to a different one of the operating field of view volumes.
US11671553B2
A video signal processing device and method thereof are provided in the present application. The video processing device includes a storage and a processor. The storage stores a plurality of brightness mapping relationships. If set brightness corresponding to the brightness mapping relationships does not match the target brightness, the processor selects a first mapping relationship and a second mapping relationship of two pieces of set brightness closing to target brightness from the brightness mapping relationships. A target mapping relationship corresponding to the target brightness is obtained by an interpolation according to the first mapping relationship, the first brightness, the second mapping relationship and the corresponding set brightness. The processor converts nonlinear brightness information of a first video signal into linear brightness information of a second video signal according to the target mapping relationship.
US11671550B2
The present principles relate to a method and device for gamut mapping from a first color gamut towards a second color gamut. The method comprises obtaining a preserved key color (prsv_colorK0) and a hue alignment angle (⊖K0) of the key color (colorK0) for each key color (colorK0) of at least 3 key colors to define a preserved gamut and a rotated gamut; and performing a hue mapping of a current color (color) from the first color gamut towards the second color gamut wherein in case the current color (color) is in a preserved gamut defined by the preserved key color (prsv_colorK0), the hue mapped current color is unchanged, and in case the current color is out of the preserved gamut, the hue mapped current color is calculated from the hue alignment angle (⊖K0) of two adjacent key colors of the current color (rotated gamut) and from the preserved area.
US11671539B2
A maintenance support system includes a network interface, a memory, and a processor configured to, upon receipt of first information indicating a status of a first apparatus via the network interface, store the first information in the memory, upon receipt of second information indicating a status of a second apparatus via the network interface, store the second information in the memory, and determine a priority of on-site maintenance between the first and second apparatuses based on the first and second information stored in the memory.
US11671531B1
Systems, devices, and methods are described herein for managing communications between a user and a third-party such that the confidentiality of the user's contact information is maintained. In some embodiments, the user may indicate interest in establishing contact with a third-party. In response, a service provider computer may obtain the user's contact information and transmit data different from that contact information to the third-party. Later, when the third-party wishes to establish contact, it may provide the data to the service provider computer. If the data received matches the data provided previously, the service provider computer may establish a communications channel between the user and the third-party. Establishing the communications channel may include forwarding a telephone call, merging multiple telephone calls, forwarding an email, or the like. Utilizing the techniques discussed herein, the confidentiality of the user's contact information may be maintained.
US11671516B1
A software package comprising a plurality of software objects and package metadata is accessed and used to provide a graphical user interface including a first area in which details about the software objects are displayed and a second area where a user can select a location path, in an analytic cloud tenant on which the package is to be imported. A selection is made of the location path for at least one resource object. The system determines if the package metadata is of a type that includes information about a parent resource object but not descendant resource objects and not ancestor resource objects other than the parent resource object, for each resource object in the plurality of software objects, and if so, recursively identifies a parent object for each resource object in the plurality of software objects. The ancestor hierarchy from the recursively identified parent object(s) is reversed and inverted.
US11671497B2
An example method includes identifying, based on a request to write data to a volume provided by storage nodes in a storage node cluster, a cluster hierarchy associated with the storage node cluster, the cluster hierarchy identifying storage characteristics of the storage nodes, wherein the cluster hierarchy is based on data characterizing performance and storage capabilities of the storage nodes; based on the request, selecting a storage node for storing the data in the volume, the selecting being based, at least in part, on the storage characteristics identified by the cluster hierarchy and on one or more data distribution parameters associated with the storage volume; and transmitting the data to the storage node.
US11671490B2
The present invention relates to IoT devices existing in a deployed ecosystem. The various computers in the deployed ecosystem are able to respond to requests from a device directly associated with it in a particular hierarchy, or it may seek a response to the request from a high order logic/data source (parent). The logic/data source parent may then repeat the understanding process to either provide the necessary response to the logic/data source child who then replies to the device or it will again ask a parent logic/data sources for the appropriate response. This architecture allows for a single device to make one request to a single known source and potentially get a response back from the entire ecosystem of distributed servers.
US11671482B2
A system for migrating a non-tenant-aware local application to a tenant-aware cloud application environment is disclosed to migrate individual modules of the application to instances of the cloud by grouping the modules via common characteristics in partition groups. By grouping modules together by partition group before migrating the modules to cloud instances, modules that share resources can be placed in closer logical proximity to one another in the cloud, modified, or deleted to optimize performance. The information from these modules is processed to create a visualization graph representing information on the cloud. The visualization graph is preferably multilayered so it can display information from different hierarchical layers of a cloud instance.
US11671471B2
A telecommunication device, apparatus, and a computer-implemented method of performing a real-time collaboration session with a plurality of participants can be configured so that a method can be performed. The method can include starting a chat application (e.g. a group chat application) for the participants of the real-time collaboration session; automatically creating, upon a first event being external or internal to the chat application, creating a collaborative chat post object (CCPO), for the session, authorizing the participants to edit the chat conversation content of the CCPO; and automatically sealing permanently the CCPO upon a second event being external or internal event to the chat application. For sealing the CCPO, the editable content of the CCPO can be converted into read-only content.
US11671469B1
An online system receives, from a client device of a user participating an online meeting, a request to share content with another user participating the online meeting. The online system identifies content items from applications running on the client device. For each identified content item, the online system determines, e.g., by using a trained model or instructing the client device to use the trained model, a sharing score that indicates a likelihood that the user would select the content item to share with the other user. Candidate content items are selected form the identified content items based on the sharing scores. The candidate content items are provided for display to the user in a user interface running on the client device. The user interface allows the user to select one of the candidate content items to share with the other user.
US11671462B2
A system is provided including a database and a server. The database stores a plurality of cloud computing service accounts created on a cloud computing platform, a plurality of roles associated with each cloud computing service account, and a plurality of policies associated with each role. The server is in data communication with the database and containing a role risk rating engine. The role risk rating engine is configured to: select a first role of the plurality of roles from the database; retrieve the plurality of policies associated with the first role; determine a risk rating for the first role based on the plurality of policies associated with the first role; store the risk rating of the first role in the database; receive a query requesting the risk rating of the first role; and in response to the query, transmit the risk rating of the first role.
US11671459B2
The disclosure relates generally to methods, systems, and apparatuses for managing network connections. A system for managing network connections includes a storage component, a decoding component, a rule manager component, and a notification component. The storage component is configured to store a list of expected connections for a plurality of networked machines, wherein each connection in the list of expected connections defines a start point and an end point for the connection. The decoding component is configured to decode messages from the plurality of networked machines indicating one or more connections for a corresponding machine. The rule manager component is configured to identify an unexpected presence or absence of a connection on at least one of the plurality of network machines based on the list of expected connections. The notification component is configured to provide a notification or indication of the unexpected presence or absence.
US11671458B1
The present disclosure sets up the foundation of consistency for cloud authorization. Consistency is formalized as univalence and a scheme of inductive types, and consistency pushouts and pullbacks are derived for cloud authorization. Induction schemas are developed for services, repositories and messages. The consistency is characterized as relative consistency, paraconsistency, and three levels of inconsistency. Due to duality of consistency, consistency recovery is constructed with a semantic model and synthetic retry message type families.
US11671448B2
A method for phishing detection using uniform resource locators is discussed. The method includes accessing data from one or more of a monitored portion of website data and a monitored portion of emails, the data indicating a suspect Uniform Resource Locator (URL). The method includes assigning a rule score based on partial rule scores of each portion of the suspect URL, the rule score indicating a phishing potential based on URL rules. The method includes determining a uniqueness score of the suspect URL, the uniqueness score indicating a degree of uniqueness of the suspect URL from a plurality of known phishing URLs. The method also includes determining a URL phishing score based, at least in part, on the rules scores and the uniqueness score for the suspect URL.
US11671445B2
In some implementations, a method includes receiving, for each of multiple users, user activity data describing actions taken by the user by use of a user device over a period of time, determining, for each user and based on the actions taken by the user over the period of time and user responsibility data that describe responsibilities of the user, a risk assessment representative of a security risk resulting from the actions taken by the user by use of the user device, and determining, by the data processing apparatus, for each user and based on the risk assessment determined for the user, whether to implement a user-specific remedial action directed to risk mitigation.
US11671442B2
Methods, systems, and computer-readable media for automated packetless network reachability analysis are disclosed. An analysis is performed of network configuration data for a network comprising a host computer. Based at least in part on the analysis, one or more ports at the host computer that are reachable from another computer are determined. Based at least in part on the analysis, one or more routes to the one or more ports are determined. A report is generated that is descriptive of the one or more ports and the one or more routes.
US11671431B1
The emergency response system and property reporting system provide a unique property identifier accessible at a property outside of a building or other structure. A user scans the property identifier with a mobile computing device to identify the property. The mobile computing device transmits the property ID and user authentication data to the server to authenticate and authorize the user. The server provides the user with the requested property data if the server authorizes the access by the user. The server also notifies a property contact that a user has scanned the property identifier of the property.
US11671430B2
A policy-based security system for establishing a secure session from client devices to a web server includes a policy component with policies, a client device with a local application to select a cloud service, and a mid-link server. A set of policies from the policies is determined. An encryption link specified for the set of policies and the cloud service is determined. A set of session protocols is selected to establish the secure session between the client device and the web server based on the set of policies. It is determined whether the client device satisfies security standards of one or more session protocols from the set and based on the determination, either a direct link is selected to establish the secure session using a session protocol from the set or a secure tunnel between the client device and the mid-link server and a corresponding tunnel protocol is selected.
US11671426B2
An information processing apparatus includes a memory storing, in an associated form, a unit of authentication and multi-step authentication corresponding to the unit and one or more processors configured to, when a type of the authentication of an authentication step in the multi-step authentication is to be set, display a unit of the type serving as a setting target on a display in a manner such that the unit of the type serving as the setting target is selectable.
US11671417B2
An information processing apparatus includes: a memory storing an agreement term log notified on each login and an agreement term on each service; and at least one processor, when in a, agreement terms notification, where, after a login on a first service, a second service different from the first service is logged in without a login operation of the user by using authentication information on the first service in order to transition from the first service to the second service, not notify an agreement term on the second service to the user if the agreement term on the second service is identical in the log to an agreement term notified on the first service, and notify the agreement term on the second service to the user if the agreement term on the second service is different in the log from the agreement term notified on the first service.
US11671415B2
Systems and methods are included for creating an assured record of a user interaction. An application on a user device can receive an agreement. The agreement can include a specification with instructions for assuring the user interaction. The application can pass the agreement to an assured module installed in the application. The assured module can present the agreement to a user in an interface. The assured module can receive user input indicating acceptance or rejection of the agreement. The assured module can generate a confirmation file that confirms the user interaction. The assured module can sign the confirmation file with a digital signature that can be used by other entities to verify the authenticity of the confirmation file.
US11671413B2
A technique to cache content securely within edge network environments, even within portions of that network that might be considered less secure than what a customer desires, while still providing the acceleration and off-loading benefits of the edge network. The approach ensures that customer confidential data (whether content, keys, etc.) are not exposed either in transit or at rest. In this approach, only encrypted copies of the customer's content objects are maintained within the portion of the edge network, but without any need to manage the encryption keys. To take full advantage of the secure content caching technique, preferably the encrypted content (or portions thereof) are pre-positioned within the edge network portion to improve performance of secure content delivery from the environment.
US11671408B2
Systems, methods, and apparatus for a virtual transponder utilizing inband commanding are disclosed. In one or more embodiments, a disclosed method comprises receiving, by a payload antenna on a vehicle via a hosted receiving antenna, encrypted hosted commands transmitted from a hosted payload (HoP) operation center (HOC). The method further comprises receiving, by the vehicle, encrypted host commands transmitted from a host spacecraft operations center (SOC). Also, the method comprises reconfiguring a payload on the vehicle according to the unencrypted host commands and/or the unencrypted hosted commands. In addition, the method comprises transmitting, by the payload antenna, payload data to a host receiving antenna and/or the hosted receiving antenna. Additionally, the method comprises transmitting, by a host telemetry transmitter, the encrypted host telemetry to the host SOC. Further, the method comprises transmitting, by a hosted telemetry transmitter, the encrypted hosted telemetry to the HOC via the host SOC.
US11671403B2
A relay device includes a communicator configured to transmit and receive a message to and from the communication device, and a processor configures to acquire a public key of a communication device that is a transmission source of the message from the node and authenticates a signature included in the message with the acquired public key, wherein the processor causes, when receiving a communication message including communication data to be transmitted to a second communication device by a first communication device, the processor to perform authentication on the communication message, and the communicator transmits the communication message to the second communication device when the authentication is successful.
US11671402B2
This application discloses a service resource scheduling method and apparatus, and relates to the field of information security technologies, to resolve a problem that a legitimate user in attack traffic cannot normally use a service of a tenant or an access speed becomes slow when a hacker attack occurs. The method includes: receiving, by a domain name system server, a domain name resolution request sent by a first terminal, where the domain name resolution request includes a domain name; selecting, based on a terminal reputation value of the first terminal and an IP reputation value of each virtual IP address in an IP address resource pool, a virtual IP address from at least two virtual IP addresses included in the IP address resource pool; and sending a domain name resolution response to the first terminal, where the domain name resolution response carries the selected virtual IP address.
US11671398B2
Inter-modal messaging communication is described. In one embodiment, a method of communication includes receiving an electronic mail message to be distributed and determining whether the electronic mail message is a multi-modal distribution message. Respective portions of the message may be separated for each mode of distribution. The separated portions may represent portions to be delivered by SMS messaging and facsimile, for example. The method further includes the steps of transmitting a short message comprising the short message portion of the mail message and establishing a conversation comprising conversation attributes. The conversation attributes are referenced, in certain aspects, to maintain a conversation between an originator of the received electronic mail message and a distribution address of short message portion of the mail message. For example, upon receipt of a short message in reply, the short message may be forwarded to an originator of the conversation.
US11671388B1
Techniques described herein relate to message distribution in a contact center. Messages generated by an administrator and/or by a trained model processing data from customer interactions with the contact center are stored in a message queue. A desktop application running on a representative device and hosted by the contact center queries the message queue for messages intended for a representative using the representative device. Messages intended for the representative are automatically displayed on the representative device, e.g., on the desktop.
US11671379B1
Methods, systems, and devices for providing computer implemented services using managed systems are disclosed. To provide the computer implemented services, the managed systems may need to operate in a predetermined manner conducive to, for example, execution of applications that provide the computer implemented services. Similarly, the managed system may need access to certain hardware resources (e.g., and also software resources such as drivers, firmware, etc.) to provide the desired computer implemented services. To improve the likelihood of the computer implemented services being provided, the managed systems may be managed using a subscription based model. The subscription model may utilize a highly accessible service to obtain information regarding desired capabilities (e.g., a subscription) of a managed system, and use the acquired information to automatically configure and manage the features and capabilities of the managed systems by powering and depowering select components as well as deploying dynamically composed management entities.
US11671376B2
Methods and apparatus for automatically identifying and correcting faults relating to poor communications service in a wireless system, e.g., in real time, are described. The methods are well suited for use in a system with a variety of access points, e.g., wireless and/or wired access points, which can be used to obtain access to the Internet or another network. Access points (APs), which have been configured to monitor in accordance with received monitoring configuration information, e.g. on a per access point interface basis, captures messages, store captured messages, and in collaboration with network monitoring apparatus which can be in an AP or external thereto, use message sequences to determine a remedial action to be automatically taken when poor service is likely as may be predicted based on the detected message sequence between a UE and one or more APs.
US11671369B2
A method for generating and using network function (NF) set load information, the method includes, at a service communication proxy (SCP), receiving service based interface (SBI) requests from consumer NFs. The method further includes forwarding the SBI requests to producer NF instances that are members of an NF set. The method further includes receiving responses to the SBI requests from the producer NF instances. The method further includes determining NF instance load control information (LCI) for the producer NF instances using the responses. The method further includes computing, by the SCP and from the NF instance LCI for the producer NF instances, NF set LCI for the NF set. The method further includes communicating the NF set LCI for the NF set to at least one of the consumer NFs or using the NF set LCI for the NF set to select a producer NF instance within an NF set to provide a service for one of the consumer NFs.
US11671367B1
An apparatus includes a virtual switch hosted at a first network device. The virtual switch is configured to receive a data packet from a first virtual resource hosted at the first network device to be sent to a second virtual resource hosted at a second network device. The virtual switch is configured to encapsulate the data packet to define an encapsulated data packet using a tunnel header, which has a first portion associated with the first and second network devices, and a second portion associated with a data flow between the first and second virtual resources when the data packet is sent from the first network device to the second network device. An Internet Protocol network can use the second portion of the tunnel header to load balance the data packet with respect to other data packets sent from the first network device to the second network device.
US11671362B2
The techniques described herein enable the establishment of two simultaneous virtual private network (VPN) connections between a VPN gateway and a VPN client. The system is configured to update a routing table advertised to network resources when a VPN server instance fails and/or is taken offline. When a first VPN server instance fails and/or is taken offline, the first VPN server instance releases a claim of ownership on its range of IP addresses. After this release occurs, the second VPN server instance is configured to claim ownership of the range of IP addresses that used to be owned by the first VPN server instance. This updated claim of ownership is captured in an updated routing table that can then be advertised to the network resources. Consequently, the network resources use this updated routing table to correctly determine which VPN server instance to send data intended for the VPN client.
US11671360B2
Techniques for utilizing edge nodes disposed throughout a multi-site cloud computing network to generate a probe packet including indicators that guarantee the use of forward and return route paths to accurately measure the network performance of a route path between two endpoints in a wide area network (WAN). An edge node disposed in a site of the multi-site cloud computing network may store in virtual memory associated with the edge node, a mapping between route paths, usable to send data from the edge node to remote edge nodes in remote sites, and route indicators. A probe packet may include a data portion for measuring the network performance of a route path, a portion including local and remote discriminators, and/or an inner and an outer header.
US11671357B2
Techniques disclosed herein provide a method and systems for installing routes by a route reflect (RR) device when the tunnel RIB of the RR device does not include any tunnel labels definitions. The unicast routing information base (RIB) of route reflector (RR) device is configured to include a next hop associated with a first network device. When the RR device receives a route from the first network device that comprises a tunnel label for reaching the second network device, the RR device resolves the next hop of the received route using the unicast RIB of the RR device. In response to the resolving, the RR device forwards the route to a third network device (e.g., identified by an export route target of the RR device).
US11671355B2
Techniques for controlling packet flows are described. In an example, a packet is sent on a virtual network. The packet's header includes scoping data that indicates a network boundary within which the packet is permitted and/or prohibited to flow. A network virtualization device of a substrate network receives the packet. The network virtualization device determines the scoping data from the header and, based on network configuration information, determines the forward flow of the packet. If the forward flow falls within a permitted network boundary indicated by the scoping data, the network virtualization device sends the packet forward. Otherwise, the packet is dropped.
US11671352B2
A message sending method, a binding relationship advertising method, a message sending apparatus, a binding relationship advertising apparatus, a storage medium and an electronic device are provided. The message sending method includes: receiving a first message on a first node subjected to route aggregation; in a case where the first message matches a first Incoming Label Map (ILM) table entry preset on the first node, swapping a label of the first message into an outgoing label corresponding to a detailed Forwarding Equivalence Class (FEC) to obtain a second message; and forwarding the second message to a downstream node according to a Label Switched Path (LSP) corresponding to the detailed FEC.
US11671349B2
This application provides a packet forwarding method and a related apparatus. The method includes: determining whether a flow to which a packet belongs meets a large flow condition; and if the flow to which the packet belongs meets the large flow condition and a flowlet routing table does not include a flowlet entry corresponding to the flow, creating the corresponding flowlet entry in the flowlet routing table, and forwarding the packet based on the created flowlet entry. In the foregoing technical solution, a corresponding flowlet entry may be created only for a large flow, to perform flowlet-based load balancing on the large flow. This can reduce an entry resource used for flowlet-based load balancing, improve balance of multi-path load sharing, and effectively improve a traffic sharing effect of load balancing.
US11671347B2
The disclosure provides an approach for performance management. Embodiments include receiving, at a port of a router, a transport control protocol (TCP) or user datagram protocol (UDP) packet generated by a performance component of the router. Embodiments include identifying, by the router, a rule related to the TCP or UDP packet. Embodiments include forwarding, by the router, the packet to an interface of a kernel based on the rule. Embodiments include receiving, by the performance component, in response to the TCP or UDP packet, an additional packet from the interface of the kernel. Embodiments include determining, by the performance component, a performance metric based on the TCP or UDP packet and the additional packet.
US11671346B2
Various systems and methods for using strict path forwarding. For example, one method involves receiving an advertisement at a node. The advertisement includes a segment identifier (SID). In response to receiving the advertisement, the node determines whether the SID is a strict SID or not. If the SID is a strict SID, the node generates information, such as forwarding information that indicates how to forward packets along a strict shortest path corresponding to the strict SID.
US11671340B1
The described technology is generally directed towards latency diagnostics for multiparty systems, such as a system comprising a communication network, a content delivery network (CDN), and one or more internet service providers (ISPs). A latency analyzer component can process latency data in response to a latency diagnostic trigger, such as an alert from a video quality monitoring system. The latency analyzer can determine whether latency is attributable to the communication network. If not, the latency analyzer can determine whether the latency is attributable to the CDN. If the latency is not attributable to the communication network or the CDN, the latency analyzer can determine that the latency is attributable to the ISP, and the latency analyzer can identify the ISP and generate appropriate reports and notifications.
US11671331B2
Aggregated health information for a managed network may be retrieved and processed in response to changes to the managed network topology, configuration, or software. In response to receiving notification that a change to a component of the managed network has occurred, a change audit analysis engine can retrieve performance indicator information from components along a traceroute including the component which underwent the change. The retrieved performance indicator information can be processed by a memory based neural network to predict an impact of the change on the aggregated health of the managed network. The predicted impact can be compared to network health information retrieved through an ongoing basis and issues can be determined based on a comparison of the predict impact and the retrieved health information.
US11671326B2
Methods and systems are provided for service policy orchestration in a communication network. Orchestrating a service policy in a communication network may include, receiving first service event related data, with the first service event related data including data that defines an update of a current service execution policy; selecting an operator access domain linked to the first service event related data for executing a service linked to the service policy; sending to the operator access domain the first service event related data and an operator specific service identifier linked to a respective operator access domain; receiving first feedback data set from the operator access domain; and processing the first feedback data set.
US11671321B2
There is provided a method for generating network optimizing information including the steps of identifying system devices that are comprised in a network, collecting metrics from the identified system devices, including collecting at least one metric relating to the operation, status, capability, limitations, expandability, scalability, or performance of the system devices, assessing the collected metrics according to a predetermined assessment protocol, generating a roster of metrics of interest, such metrics of interest being a group of the collected metrics that meet a selection criteria and not including other collected metrics that do not meet the selection criteria, and presenting each of the metrics of interest in a format suitable for a network operator to take corrective actions with regard to the identified non-compliant metrics or to capitalize on the identified optimization opportunities with respect to the network.
US11671309B2
An example network device includes a primary node and a standby node. The primary node engages in a routing session with a peer network device via a connected socket. The standby node includes one or more processors implemented in circuitry and configured to execute a backup replication module to receive, from the primary node, data to be written to a backup socket for the connected socket, and, in response to a switchover, to send a representation of the data to the peer network device via the backup socket.
US11671306B2
Enhancements to the device management functionality within service layer architecture of a Gateway node are described. The SL application registration procedure can be enhanced for devices in support of device management. Functionality can be added to the service layer to initiate automated request notification for DM purposes. Lightweight SL Transport Protocol bindings can support sending multiple DM commands called DM Action Scripts with a specific focus on the Constrained Application Protocol (CoAP) Protocol.
US11671304B2
Embodiments include devices and methods that improves quality in radio transmission/reception using a single-carrier scheme and/or a multi-carrier scheme.
US11671295B2
One disclosure of the present application provides a method for a narrowband (NB) wireless device to determine whether or not to transmit a scheduling request (SR). The method may comprise a step of determining whether or not to transmit an SR by using a resource for the transmission of a hybrid automatic retransmit request (HARQ) acknowledgement/negative acknowledgement (ACK/NACK) signal. The step of determination may be performed if one or more HARQ processes are run. The resource for the HARQ ACK/NACK signal may include a narrowband physical uplink shared channel (NPUSCH).
US11671287B2
An interconnect module device is provided. The interconnect module device includes a line control command (LCC) detecting circuit configured to identify an LCC signal; an equalizer control circuit configured to generate a control signal based on the LCC signal; a receiving equalizer configured to perform receiving equalization on a first signal received from a first universal flash storage (UFS) device based on the control signal to generate a second signal; and a transmitting equalizer configured to perform transmitting equalization on the second signal to generate a third signal based on the control signal, and transmit the third signal to a second UFS device.
US11671286B2
A receiver utilizes loop-unrolled decision feedback equalization (DFE). For each sample, two comparators, each configured with different thresholds, sample an input signal. The output of one of these comparators is selected and used as the output of the receiver and may be optionally input to additional DFE circuitry. The output of the other (non-selected) comparator is used to adjust an input offset voltage of that same comparator. Adjustments to the offset voltages of the comparators may be based on a statistical analysis of the respective outputs of the two comparators when not selected. Adjustments to the offset voltages of the comparators may be based on comparisons between the respective outputs of the two comparators when not selected to the outputs of a reference comparator that has been calibrated for minimal or zero offset.
US11671284B2
A central control device and a plurality of relay devices constitute a backbone network. Each of the relay device includes: a backbone-side communication port connected to a backbone network; a plurality of device-side communication ports configured to input and output a signal to/from an onboard device; and a first interface conversion device configured to perform interface conversion between the backbone-side communication port and the device-side communication ports. The device-side communication ports include a plurality of general-purpose communication ports to which a common input circuit and/or output circuit is connected. A predetermined first onboard device is directly connected to the general-purpose communication ports, whereas a predetermined second onboard device is connected to the general-purpose communication ports via a predetermined first onboard device.
US11671283B2
A server, includes a virtual machine identifier assigning section to assign an identifier of a virtual machine operating on the server; and a network interface to transmit a packet including a Layer 2 header information which includes the identifier of the virtual machine and a first packet field for a VLAN-Tag, wherein the network, interface transmits the packet to a packet encapsulate section which encapsulates a second packet field including the Layer 2 header information with a virtual network identifier representing a virtual network to which the virtual machine belongs.
US11671280B2
A network node for coupling to a communication bus, the node comprising: a receiver configured to receive messages from the communication bus; and a transmitter configured to transmit first messages having a first message format and configured to transmit diagnosis messages having a second message format on the communication bus for use in determination of communication errors, wherein said transmitter is configured to send said one or more diagnosis messages having one or more of: (i) a predetermined pattern of symbols; (ii) a predetermined sending schedule; (iii) a predetermined line encoding method; (iv) a predetermined bit rate; (v) a predetermined position in one or more of the first messages; (vi) a predetermined signalling frequency that is out of a frequency band used for transmission of the first messages; and (vii) a predetermined signal strength different from the signal strength used to send the first messages.
US11671270B2
The present disclosure is directed to systems and methods for logical flow aggregation for fragmented multicast flows, the methods including the steps of identifying a plurality of fragmented multicast flows that are logically related as a single flow in a multicast network; generating a plurality of multicast joins associated with the plurality of fragmented multicast flows, wherein each multicast join of the plurality of multicast joins includes a join attribute comprising a common flow identifier that identifies the plurality of fragmented multicast flows as logically related; and selecting a reverse forwarding path toward an upstream device for the plurality of multicast joins.
US11671268B2
This invention provides a secure method for sending data—private, arrival-time messaging. Private, arrival-time messaging is based on classical physics and not quantum mechanics. It insures a private language for communicators with privately-synchronized clocks. In this method, there is no encrypted message available to an eavesdropper. A private message is mapped onto a time measurement known only to an intended sender and an intended receiver such that a third party knowing only the arrival time of the message and not the time measurement can never know the private message.
US11671266B2
A computer-implemented method is for providing a digital certificate to a device. In an embodiment, the method is based on receiving, from the device, authentication data via a secure communication channel. Furthermore, the method is based on receiving, from the device, or determining, by the server, a first certificate identifier. In particular, the first certificate identifier is a hash value. Further aspects of the method are verifying the authentication data and receiving, from the device, a first public key created by the device. In an embodiment, the method is furthermore based on sending a first certificate signing request related to a first domain name based on the first public key to a certificate authority. Herein, the first domain name comprises the certificate identifier, and a domain related to the first domain name is controlled by the server. In particular, the first domain name is a wildcard domain.
US11671262B2
Methods for asynchronously determining relational data integrity using cryptographic data structures are performed by systems and devices. Changes in current tables of relational databases are reflected in associated history tables. Cryptographic hybrid blockchain ledgers are updated with transaction records, for entry changes in current and history tables, including transaction information and hash values of corresponding entry changes. Hybrid blockchain ledgers also include root hash values of Merkle trees of transaction records in current blocks, and hash values of prior blocks. A current block receipt is asynchronously generated and provided as a single hash value from which the validity states of the tables and ledger are able to be verified. Cryptographic receipts of specific transactions reflected in table entry changes are generated and provide immutable evidence of specific transaction existence for users. Ledger-enabled tables are provided for mixed database operations with ledger-disabled tables, and temporal history table database operations are enabled.
US11671261B2
A system, apparatus, and method may include receiving edge device data, training a remote artificial intelligence (AI) model using the edge device data, and storing resulting remote AI model parameters in a ledger-based data structure. The ledger may also store device health data indicative of electronic device health of one or more edge devices. A ledger node may store a shared ledger. The shared ledger may use blockchain or encryption techniques and may store encrypted data, data pointers, or transfer data. The shared ledger may be accessible by at least two parties to share particular device health data.
US11671257B2
A mobility data storage method executed by a plurality of vehicles each including a sensor and a processor coupled to the sensor, the processor of each of the plurality of vehicles being configured to store a local blockchain, the method includes, with the processor of the plurality of vehicles, attaching a sensor data pool, a random value that excess a threshold, and a verifiable random function (VRF) proof to a respective candidate block then broadcasting the candidate block to all other vehicles. Then, a particular candidate block whose random value is largest among the broadcasted candidate blocks is selected and verified with the VRF proof prior to be attached to the local blockchain.
US11671256B2
Non-limiting examples of the present disclosure relate to generation and implementation of a new security protocol that is used to secure common data access transactions across distributed network examples. An exemplary proof of verification protocol is disclosed that implements consensus security mechanisms across a plurality of distributed nodes, which may be utilized to validate owners of data in common data access transactions. Extending principles of blockchain security to common data access transactions and Internet of Things (IoT) networking requires a solution that: improves speed in transactional processing; reduces computational complexity; and presents efficient, secure and repeatable validation for owners of data in distributed networking environments. An exemplary proof of verification protocol provides such technical advantages by validating both user-specific data for a subscriber of an application/service and session data for user activity (past and present) within the application/service.
US11671249B1
An apparatus and method for generating an action-based collective associated with an action datum waypoint. A first action datum waypoint is completed and an indication of the completion of the assignment is submitted to a processor. The processor generates a subsequent action datum waypoint using machine-learning to analyze the completed action datum waypoint and any skills that are associated. A token certificate is generated that is associated with the completion of the action datum waypoint. The token certificate may be associated with the action datum identifier that completed the action datum waypoint.
US11671244B2
One example method includes creating a backup of data, creating metadata associated with the backup, hashing the backup to create a backup hash, obtaining a key from a blockchain, generating an aggregate hash of a combination that includes the key and the backup hash, and transmitting the aggregate hash to a blockchain network. Because the aggregate hash is not modifiable when stored in a blockchain, an immutable record exists that establishes when a particular backup was created.
US11671240B2
Technologies are disclosed herein for secure data access. A client device accesses a slice of data using a ticket retrieved from a permissioned blockchain. To obtain the ticket, the client device submits ticket requests to multiple nodes of the permissioned blockchain. Each request identifies the slice of data, e.g. a particular row in a particular database table. Each request also includes parameters describing the circumstances of the request, such as the requesting user account, the geographic location of the computing device, etc. The permissioned blockchain stores each authorized combination of request parameters and data slices in a different access level block. If an access level block can be found that is associated with the requested slice of data and with all of the supplied parameters, and if that access level block grants permission, then the requested ticket is returned to the client device.
US11671228B2
Systems and methods are disclosed for securing a network, for admitting new nodes into an existing network, and/or for securely forming a new network. As a non-limiting example, an existing node may be triggered by a user, in response to which the existing node communicates with a network coordinator node. Thereafter, if a new node attempts to enter the network, and also for example has been triggered by a user, the network coordinator may determine, based at least in part on parameters within the new node and the network coordinator, whether the new node can enter the network.
US11671226B2
Various embodiments disclosed herein provide for switching between non-orthogonal and orthogonal multiple access protocols dynamically. A base station device can determine whether a user equipment device on a communication link should use a non-orthogonal multiple access system or an orthogonal multiple access system based on one or more attributes of the communication link, and send an indication of the selection to the user equipment device. The base station device can indicate the selection using a spreading factor parameter that is either equal to one or greater than one. If the spreading factor parameter is equal to one, that can indicate to the user equipment device to use an orthogonal multiple access system, whereas if the spreading factor parameter is greater than one, that can indicate to the user equipment device to use a non-orthogonal multiple access system.
US11671225B2
Systems, methods, and instrumentalities are disclosed for range extension, basic service set (BSS) color labeling, and multi-user (MU) fragmentation and control in WLANs. A range extension notification/enablement scheme, a clear channel assessment (CCA), a headroom indication, and/or power scaling may be provided for a range extension mode. BSS color may be provided for multiple-BSSs under an access point (AP). Uplink (UL) transmission may be provided with different fragmentation capabilities. A high-efficiency (HE) trigger-based UL NDP physical layer convergence protocol (PLCP) protocol data unit (PPDU) frame may be provided. A station (STA) may receive a trigger frame comprising a null data packet (NDP) indication and a trigger type. The STA may determine that the STA is an intended recipient of the trigger frame. The STA may prepare an NDP PPDU for a control frame and/or a management frame based on the trigger type.
US11671216B2
A radio transmission device includes a transmitter (209) and a controller (203). The transmitter (209) transmits a radio signal in which a demodulation reference signal is mapped. When a plurality of the demodulation reference signals are to be mapped respectively to first and second unit resources consecutive in a time domain of the radio signal, the controller (203) applies the same sequence to each of the plurality of the demodulation reference signals to be mapped to the first and the second unit resources.
US11671215B2
A base station may send one or more instructions to activate multiple cells. The cells may include a licensed cell and an unlicensed cell. The base station may receive uplink signals from the activated cells. Reception of an uplink signal via the licensed cell may may start after reception of an uplink signal via the unlicensed cell.
US11671213B2
An apparatus and method are provided for transmitting and receiving signals in a wireless communication system. A method includes transmitting a first signal using a first frame structure to a first terminal; and transmitting a second signal using a second frame structure to a second terminal. A subcarrier spacing of the second frame structure is a multiple of a subcarrier spacing of the first frame structure. A length of a subframe in the first frame structure is a multiple of a length of a subframe in the second frame structure.
US11671210B2
This application provide a retransmission control method, a communications interface, and an electronic device. When a transmit end transmits a first data packet to a receive end and does not receive an acknowledgement corresponding to the first data packet within a first RTO, the transmit end retransmits a second data packet based on a second RTO. The second data packet is a data packet transmitted by the transmit end after the transmit end transmits the first data packet. The second RTO is related to a receive timestamp of the acknowledgement corresponding to the first data packet and a transmit timestamp of the first data packet.
US11671208B2
A wireless communication device generates physical layer (PHY) protocol service data units (PSDUs), and, in response to determining that the PHY data unit is to be transmitted according to a HARQ process, generates HARQ coding units of a common length, each of the HARQ coding units including a respective set of one or more PSDUs, and individually encodes the HARQ coding units. The wireless communication device also generates a HARQ signal field to the included in a PHY preamble of the PHY data unit. The HARQ signal field includes i) a common information subfield to indicate one or more parameters that commonly apply to each of at least some of the one or more HARQ coding units and ii) a respective HARQ coding unit information subfield for each of the HARQ coding units to indicate one or more parameters that apply to only the corresponding HARQ coding unit.
US11671201B2
Provided is a transmission method executed by a transmitting apparatus to transmit a content to a plurality of terminals. The content having transmission count information indicating a number of times the content is to be transmitted by the transmitting apparatus. The transmission method including a first transmission step of generating and transmitting a first transmission signal which transfers at least a first portion of a plurality of data packets including a plurality of content packets, storing data of the content therein, and a plurality of parity packets, generated from the content packets, and a second transmission step of, when the transmission count information of the content indicates a plurality of times, generating a second transmission signal including at least a second portion of the plurality of data packets, and transmitting the second transmission signal during a period which differs from a period during which the first transmission signal is transmitted.
US11671191B2
A low cost DAB multichannel receiver comprising a simplified buffering method for buffering content segments from multiple streams contained within the DAB channel, where the receiver enables the listener to navigate buffered content segments from multiple streams within the DAB channel while enabling the broadcaster to control the timeshift of commercial content to the receiver output stream. The receiver's buffered content grows over time and is cleared when tuning away from the channel, thus encouraging listeners desiring to tune in to new content to instead navigate to new buffered segments. Broadcaster control of the listener experience may be enabled by setting content control fields which are observed in the broadcast by the multichannel receivers. Additional embodiments are disclosed.
US11671188B2
Methods, systems, and devices for wireless communications are described. In some wireless communications networks, a device, such as a user equipment (UE), may be configured to detect a signal blockage affecting one or more antennas of the UE. The signal blockage may be associated with the position of a body, such as a user, relative to the one or more antennas of the UE, which may include how a user places their hand on or near the device during use. The position of the body may block one or more of the antennas of the UE, causing increased signal attenuation and decreased communications performance. The UE may be configured to signal, an indication based on detecting the signal blockage.
US11671180B2
A channel between quantum controller modules (e.g., pulse processors) is operable to communicate high speed data required for processing qubit states that may be distributed across a quantum computer. The latency of the communication channel is deterministic and controllable according to a system clock domain.
US11671170B2
A method for determining operational constraints for a first constellation of non-geostationary satellites transmitting towards a terrestrial station with respect to a second constellation of non-geostationary satellites linked with the station, the constraints comprising a maximum transmission power of the satellites of the first constellation, the method comprising: determining triplets of limit values (θ, ϕ, I/N) of two angles (θ, ϕ) and of an interference-to-noise ratio (I/N), the angles (θ, ϕ) defining a position of a satellite of the first constellation relative to the station and to a satellite of the second constellation and the interference-to-noise ratio being the ratio between interferences transmitted by the first constellation on a link between the station and the satellite of the second constellation and the noise (N) of the link, the determination of the triplets being performed so that a distribution of signal-to-noise and interference ratios (R) aggregated over a time interval is greater than a reference distribution; determining at least the maximum transmission power of at least one satellite of the first constellation from the triplets.
US11671169B2
A satellite system operates at altitudes between 100 and 350 km relying on vehicles including a self-sustaining ion engine to counteract atmospheric drag to maintain near-constant orbit dynamics. The system operates at altitudes that are substantially lower than traditional satellites, reducing size, weight and cost of the vehicles and their constituent subsystems such as optical imagers, radars, and radio links. The system can include a large number of lower cost, mass, and altitude vehicles, enabling revisit times substantially shorter than previous satellite systems. The vehicles spend their orbit at low altitude, high atmospheric density conditions that have heretofore been virtually impossible to consider for stable orbits. Short revisit times at low altitudes enable near-real time imaging at high resolution and low cost. At such altitudes, the system has no impact on space junk issues of traditional LEO orbits, and is self-cleaning in that space junk or disabled craft will de-orbit.
US11671163B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a beam update message identifying a change from a first control resource set (CORESET) beam to a second CORESET beam. The UE may use, for a beam failure detection (BFD) procedure, a first BFD reference signal associated with the first CORESET beam or a second BFD reference signal associated with the second CORESET beam based at least in part on one or more selection criteria. Numerous other aspects are provided.
US11671155B2
A method performed by a wireless device for transmitting a channel state information (CSI) report for a downlink channel comprises obtaining a first set of candidate frequency-domain components and determining a set of spatial-domain components. The method comprises determining a second set of candidate frequency-domain components as a subset of the first set of candidate frequency-domain components. The method comprises determining, for each spatial-domain component of the set of spatial-domain components, a spatial-domain component-specific set of frequency-domain components as a subset of the second set of candidate frequency-domain components. The method comprises transmitting, to a network node, the CSI report.
US11671152B2
An electronic device at a base station end includes a processing circuit, the processing circuit being configured to: configure, in response to request signalling from a user equipment, an aperiodic beam-forming reference signal relevant to a first beam group for the user equipment, wherein the first beam group is determined by a base station according to channel state information periodically fed back by the user equipment; generate downlink control information, so as to indicate that the user equipment feeds back beam selection information according to the aperiodic beam-forming reference signal; determine, according to the beam selection information, one or a plurality of candidate beams and one or a plurality of corresponding second pre-coding codebooks; and determine an effective pre-coding codebook based on the one or multiple second pre-coding codebooks.
US11671150B2
A method and system for optimizing the performance of spatial multiplexing techniques in MU-MIMO wireless systems comprising subsectors where the presence of significant correlation between antenna elements can impair the performance of MU-MIMO techniques. The proposed solution ensures optimum selection of a specific combination of transmit antenna elements and receive antenna elements that maximizes MU-MIMO performance.
US11671145B2
A full duplex, low latency, near field data link controls a resonant induction, wireless power transfer system for recharging batteries. In an electric vehicle embodiment, an assembly is aligned with respect to a ground assembly to receive a charging signal. The vehicle assembly includes one or more charging coils and a first full duplex inductively coupled data communication system that communicates with a ground assembly including one or more charging coils and a second full duplex inductively coupled data communications system. The charging coils of the ground assembly and the vehicle assembly are selectively enabled based on geometric positioning of the vehicle assembly relative to the ground assembly for charging. As appropriate, the transmit/receive system of the ground assembly and/or the vehicle assembly are adjusted to be of the same type to enable communication of charging management and control data between the ground assembly and the vehicle assembly during charging.
US11671144B2
Devices and methods for testing microelectronic assemblies including wireless communications are disclosed herein. For example, in some embodiments, a wireless testing system may include a radio frequency (RF) shielded chamber; a device under test (DUT) in the RF shielded chamber, wherein the DUT includes an array of first antenna elements; a testing apparatus in the RF shielded chamber including an array of second antenna elements at a first surface of a substrate to receive a test signal from the DUT, wherein a distance between individual second antenna elements and an adjacent second antenna element is at least half of a wavelength of the test signal, and wherein a distance between the first antenna elements and the second antenna elements is within a near-field region; and an array of electrical switches, wherein an individual electrical switch is coupled to a respective individual second antenna element.
US11671140B2
Embodiments provide a transmission method for wireless transmission of data within a communication system. The method includes a step of transmitting the data in a manner that is time-synchronized with a reference signal while using a frequency hopping pattern and/or time hopping pattern.
US11671139B2
Disclosed herein are system, apparatus, article of manufacture, method and/or computer program product embodiments, and/or combinations and sub-combinations thereof, for identifying electronic devices in a room using a spread code. In some embodiments, a first electronic device receives a spread spectrum signal from a second electronic device over an audio data channel. The first electronic device determines a time of receipt of the spread spectrum signal based on despreading. The first electronic device calculates a distance between the first electronic device and the second electronic device based on the time of receipt and a time of transmission. The first electronic device determines the second electronic device is not in the room with the first electronic device based on the calculated distance.
US11671137B2
Various embodiments relate to an electronic device and a method for preventing interference between signals transmitted and received through first and second antennas. To this end, an electronic device according to various embodiments comprises, a first antenna and a second antenna, a battery, a wireless communication module having a coupler, and a processor electrically connected to the first antenna and second antennas, the battery, and the wireless communication module, wherein the processor can be configured to, measure, on the basis of a first signal transmitted and received through the first antenna, the magnitude of components, corresponding to a designated frequency band, of a coupling signal fed back from the coupler, compare the measured magnitude with a designated threshold value, and control at least some elements of the electronic device such that the measured magnitude is reduced to be less than or equal to the designated threshold value when the measured magnitude exceeds the designated threshold value. Other embodiments can also be possible.
US11671131B2
A transmitter circuit includes at least one transmitting signal processing device, a compensation device and a compensation value calibration device. The at least one transmitting signal processing device sequentially generates multiple output signals according to multiple input signals. The compensation device sequentially generates the input signals according to multiple initial compensation values. The compensation value calibration device receives the output signals as multiple feedback signals and performs a calibration operation according to the feedback signals. The compensation value calibration device includes a digital signal processor coupled to the compensation device. In the calibration operation, the digital signal processor determines a first characteristic curve according to the initial compensation values and power of the feedback signals at a predetermined frequency, determines a first compensation value corresponding the minimum power according to the first characteristic curve and provides the first compensation value to the compensation device.
US11671119B2
A signal processing device includes a distributing unit and a plurality of correcting units with different processing performance, the distributing unit distributes a bit sequence having a first number of bits to the first correcting unit, and a bit sequence having a second number of bits less than the first number of bits to the second correcting unit having lower processing performance than the first correcting unit, the first correcting unit applies error correction processing to the bit sequence having the first number of bits distributed to the first correcting unit, and the second correcting unit applies error correction processing to the bit sequence having the second number of bits distributed to the second correcting unit.
US11671116B2
Embodiments of this application disclose provides a low density parity check (LDPC) channel encoding method for use in a wireless communications system. A communication device encodes an input bit sequence by using a LDPC matrix, to obtain an encoded bit sequence for transmission. The LDPC matrix is obtained based on a lifting factor Z and a base matrix. Embodiments of the application provide eight particular designs of the base matrix. The encoding method provided in the embodiments of the application can be used in various communications systems including the fifth generation (5G) telecommunication systems, and can support various encoding requirements for information bit sequences with different code lengths.
US11671103B2
A circuit for sensing local operating properties of an integrated circuit is disclosed. The circuit may include one or more sensor circuits configured to sense the local operating properties of the integrated circuit. The sensor circuits may receive a supply voltage with a magnitude in a limited range from a digital power supply that is different from the digital power supply that provides power to functional circuits in the integrated circuit. Level shifters may be coupled to the sensor circuits to shift output signals from the sensor circuits to levels that correspond to the digital power supply that provides power to functional circuits in the integrated circuit. Counters and a shift register may be coupled to the level shifters to receive the shifted output signals, the values of which may be used to determine the local operating properties of the integrated circuit as sensed by the sensor circuits.
US11671102B2
Systems and methods related to scheduling of tasks for execution in parallel based on geometric reach are described. An example method includes using a processor, processing information pertaining to a type of task to generate a plurality of areas of reach, where each of the plurality of areas of reach corresponds to a portion of a shared space. The method further includes using the processor, generating a plurality of inflated areas of reach by inflating each of the plurality of areas of reach based on a task-specific factor pertinent to the type of task. The method further includes automatically scheduling parallel execution of tasks associated with any of the plurality of inflated areas of reach satisfying a spatial constraint.
US11671099B2
A logic cell for a programmable logic integrated circuit apparatus includes a K-input lookup table (LUT) circuit having a primary output Y, wherein Y is any function of K inputs, and at least one additional output (F). A carry circuit receives the outputs of the LUT and a carry-in input CI. The carry circuit generates a sum output S and a carry-out output CO. The carry circuit can be configured to provide S=CI and select CO from the set {0, 1, F}. The carry circuit can alternatively be configured to provide S=EXOR(Y, CI) and select CO from the set {0, 1, F}. The carry circuit can alternatively be configured to provide S=EXOR(Y, CI) and CO=CI if Y=q or to select CO from the set {0, 1, F} if Y≠q, where q is a pre-determined value (e.g., such as 0 or 1).
US11671079B1
Embodiments of the present invention provide for a core stage in an application-specific integrated circuit core which drives both a clock pulse signal and a clock pulse negative/complement signal concurrently, thereby resulting in perfectly aligned signals. The core stage can include a pulse generator, a clock distribution circuit, and a set of latches.
US11671078B2
A device for generating first clock signals includes first circuits, each including a ring oscillator delivering one of the first clock signals and being connected to a first node configured to receive a first current. A circuit selects one the first clock signals, and a phase-locked loop delivers a second signal which is a function of a difference between a frequency of the first selected clock signal and a set point frequency. Each first circuit supplies the first node with a compensation current determined by the second signal, when this first circuit delivers the selected clock signal and operates in controlled mode.
US11671076B2
Devices and methods for detecting and correcting duty cycles are described. An input switching unit is configured to perform at least one of an operation of outputting differential input signals as a first combination of first and second output signals and an operation of outputting the differential input signals as a second combination of the first and second output signals, according to one of a plurality of control signals. A comparator is configured to receive the first output signal through a first input terminal thereof, to receive the second output signal through a second input terminal thereof, to generate duty detection signals by comparing the signal of the first input terminal and the signal of the second input terminal according to at least another one of the plurality of control signals, and to adjust an offset of at least one of the first input terminal and the second input terminal.
US11671072B2
An acoustic wave device is disclosed. The acoustic wave device can include a piezoelectric layer positioned over a substrate. The acoustic wave device can also include an interdigital transducer electrode positioned over the piezoelectric layer. The acoustic wave device can also include a grounding structure positioned over the piezoelectric layer. The acoustic wave device can also include a conductive layer positioned under the substrate such that the substrate is positioned between the conductive layer and the grounding structure. The acoustic wave device can further include an electrical pathway that electrically connects the conductive layer to the grounding structure.
US11671066B2
An artificially oriented piezoelectric films for integrated filters and methods of manufacture. The method includes: forming a piezoelectric film with effective crystalline orientations of a polar axis rotated 90 degrees from a natural orientation for planar deposited piezoelectric films; and forming electrodes on a planar surface of the piezoelectric film. The piezoelectric film has an effective crystalline orientation of the polar axis in a horizontal orientation, with respect to the electrodes, and an effective crystalline orientation of the polar axis in a vertical direction adjacent to an underlying substrate.
US11671053B2
Inflatable divergent Fresnel lens and non-imaging concentrator based non-tracking solar concentrator
An inflatable divergent Fresnel lens and non-imaging CPC based non-tracking high concentration ratio solar concentrator system comprises a flexible domed divergent Fresnel lens, and an inflatable non-imaging CPC concentrator with a domed transparent top cover and a flat transparent bottom cover. Where, the flexible domed divergent Fresnel lens is attached onto the said domed transparent cover of the said inflatable non-imaging CPC concentrator. When in operation, the oblique incident sunlight including beam light and diffuse light onto the domed divergent Fresnel lens, is deflected to change its direction, and consequently change its original incident angle relative to the said CPC concentrator from large to small, then eventually fall in the acceptance half-angle to be concentrated by the said CPC in large concentration ratio.
US11671052B2
A solar module mounting bracket assembly includes a rail configured to support a solar module thereon, and a pair of braces. The braces each have a first end portion movably coupled to the rail. The braces are movable relative to the rail between a collapsed configuration and an expanded configuration. In the expanded configuration, the braces cooperatively define a channel dimensioned for receipt of a frame member.
US11671039B2
A method for operating an asynchronous inverter-based resource connected to a power grid as a virtual synchronous machine to provide grid-forming control thereof includes receiving a frequency reference command and/or a voltage reference command. The method also includes determining at least one power reference signal for the inverter-based resource based on the frequency reference command and/or the voltage reference command. Further, the method includes generating at least one current vector using the power reference signal(s). Moreover, the method includes determining one or more voltage control commands for the inverter-based resource using the at least one current vector. In addition, the method includes controlling the inverter-based resource based on the one or more voltage control commands such that the inverter-based resource actively participates in controlling at least one of voltage and frequency at a point of interconnection between the inverter-based resource and the power grid in a closed loop manner.
US11671035B2
A method for operating a system having at least two mechanically coupled asynchronous motors, a computer program implementing the method and a system operating in accordance with the method are disclosed. One asynchronous motor is selected as master, with the other asynchronous motor(s) selected as slave(s). An effective (master) flux angle is measured in the motor selected as master and used as a basis for a setpoint value for controlling the flux angle of every other motor (slave) in the system. The flux angle of every slave motor is adjusted to the setpoint value as part of the control operation.
US11671034B2
A motor control system shorts motor windings of a motor by using enhancement metal-oxide-semiconductor field-effect transistors (MOSFETs) so that the motor generates braking torque when all or some electric control units of the motor are disabled or failed. The motor control system comprises: a motor comprising a plurality of motor phase terminals; a plurality of electric control units electrically connected to the motor and configured to control the motor, wherein the electric control units configured to output control signals, respectively; a plurality of power sources, each of the power sources electrically connected to a respective one of the electric control units; and a shorting circuit connected between the power sources and the motor, the shorting circuit configured to selectively short the motor phase terminals in response to one or more of the control signals of the electric control units.
US11671022B2
Embodiments include systems, methods, and apparatuses for controlling off-time during a burst mode in an LLC converter. In one embodiment, a circuit comprises an LLC converter having a primary side and a burst mode controller, the burst mode controller configured to monitor, on the primary side of the LLC converter, electrical current, and in response to a determination that the electrical current is below a first threshold, increase an off-time for switches in the LLC converter and in response to a determination that the electrical current is above a second threshold that is higher than the first threshold, decrease the off-time for the switches in the LLC converter.
US11671003B2
Multi-phase control circuit, multi-phase power system and temperature balance control method thereof
A multi-phase control circuit and a temperature balance control method thereof The temperature balance control method of the multi-phase control circuit includes the steps of: acquiring a first temperature signal reflecting a representative temperature among a plurality of power stages, then acquiring a plurality of second temperature signals reflecting a respective temperature of each of the plurality of power stages; and adjusting a pulse width and/or frequency of a pulse width modulation signal of at least one of the plurality of power stages according to a comparison result between the first temperature signal and the second temperature signal so as to balance the temperatures of the plurality of power stages.
US11670998B2
A conveyance apparatus includes a stator including a plurality of coils arranged along a first direction and a mover. The mover moves along the plurality of coils and includes a first magnet group including a plurality of first magnets arranged to face the plurality of coils along the first direction, and a second magnet group including a plurality of second magnets arranged to face the plurality of coils along a second direction intersecting with the first direction. At least one of the plurality of coils includes a core, a wire-wound portion wound around the core, and a yoke. The yoke is adjacent to an outer periphery of a portion of the wire-wound portion along the first direction and extends in the first direction.
US11670997B2
A vibration motor includes a stationary part, and a movable element which has a magnet and can vibrate in one direction. The stationary part includes a coil which applies a driving force to the magnet due to energization, a housing which houses the movable element and the coil therein, a first lid part which closes an end portion of the housing on one side in the one direction, and a first bearing part. The first bearing part is disposed inside the housing on the other side in the one direction from the first lid part. The first bearing part includes a bearing inner circumferential surface disposed with a gap therebetween with respect to an outer circumferential surface of a portion of the movable element on one side in the one direction.
US11670991B2
In an electric driving apparatus, a first rotational angle detecting sensor that generates a signal that corresponds to rotation of a shaft is disposed between a controlling apparatus and a motor. A housing accommodates the motor, the controlling apparatus, and the first rotational angle detecting sensor together. A second rotational angle detecting sensor that generates a signal that corresponds to rotation of the shaft is disposed at a position that is further away from the motor than the controlling apparatus in the axial direction of the shaft, and is disposed outside the housing. The first rotational angle detecting sensor is a magnetic detecting element sensor that includes: a magnet rotating body that includes a magnet, and that rotates together with the shaft; and a magnetic detecting element that detects magnetism from the magnet. The second rotational angle detecting sensor is a resolver.
US11670989B2
A rotating electrical machine includes a rotor and a magnet unit. The rotating electrical machine also includes a cylindrical stator and a housing. The stator is equipped with a stator winding made up of a plurality of phase windings. The stator is arranged coaxially with the rotor and faces the rotor. The housing has the rotor and the stator disposed therein. The rotor includes a cylindrical magnet retainer to which the magnet unit is secured and an intermediate portion which connects between a rotating shaft of the rotor and the magnet retainer and extends in a radial direction of the rotating shaft. A first region located radially inside an inner peripheral surface of a magnetic circuit component made up of the stator and the rotor is greater in volume than a second region between the inner peripheral surface of the magnetic circuit component and the housing in the radial direction.
US11670987B1
An electric machine for converting between electrical and rotary mechanical energy includes a rotor that is journalled to rotate about an axis of rotation, and an adjacent stator that magnetically exerts torque upon the rotor across a magnetic airgap in response to applied electric power to air core stator windings that are bonded in thermal contact to a slotless ferromagnetic stator backiron forming the stator surface facing the magnetic airgap, the rotor has a surface that is opposed to, and spaced apart from, the corresponding surface on the stator, the rotor surface and the stator surface define the airgap therebetween. The rotor has permanent magnets that generate magnetic flux across the magnetic airgap and through the air core stator windings. The air core windings are cooled by a physical loop having an evaporator, a remote located condenser and connected by two fluid flow lines filled with two phase fluid comprising liquid and gas both traveling in the same direction around the physical loop. The evaporator is constructed as an annulus co-annular with the rotor and located in thermal contact with the stator backiron and in thermal conduction indirectly with heat across the bond of the air core stator windings and through the stator backiron as heat is generated from the application of electric power; The evaporator transfers heat from the stator backiron to the fluid through phase change energy of the fluid, and the fluid is passively circulated to the condenser where the phase change energy is released remotely by convection of heat to ambient air, wherein the condenser is located at a higher elevation than the stator and the evaporator has two internal parallel fluid paths located on opposite diametral sides of the stator.
US11670986B2
A cooling system includes: a coolant circuit through which a coolant for cooling an electric motor and electrical equipment circulates; a pump that feeds the coolant; and a degas tank that separates the bubbles from the coolant. The coolant circuit connects the devices in series. The degas tank is disposed at an upper stage, a first device as at least one of the electric motor, the electrical equipment, and the pump is disposed at a lower stage, and a remaining second device is disposed at a position that is above the lower stage and is as high as the degas tank or lower than the degas tank. The coolant circuit connects the degas tank, the second device, and the first device in this order, and the coolant flows in this order.
US11670978B2
A stator of an electric motor includes a cylindrical stator core, a winding wound around the stator core, and a first cooling tube wound around a coil end formed in an axial end portion of the stator core.
US11670976B2
A rotor assembly for an electric machine includes a rotor core that is fabricated from a plurality of laminations stacked along a rotational axis of the electric machine. The rotor core has a plurality of arcuately arranged, axially extending magnet-receiving slots. The rotor core includes a plurality of magnets received in respective ones of the magnet-receiving slots. Each of the laminations includes opposed deflectable magnet-retaining prongs that extend into a corresponding one of the magnet-receiving slots. The magnet-retaining prongs are deflected by and engage the magnets to exert a reactive force against the magnets and hold them in place. Each of the laminations also includes respective support posts axially adjacent the magnet-retaining prongs. The support posts extend alongside and thereby limit the deflection of the magnet-retaining prongs when engaged with the corresponding one of the magnets.
US11670973B2
A charging system for a peripheral device, such as a stylus, including orientation control. The charging system includes charging circuitry and magnets. The magnets are configured so that they attract the peripheral device to an engagement surface when it is in a first orientation relative to the engagement surface so that charging circuitry in a peripheral device portion couples with charging circuitry in a charger portion. The magnets are configured so that they also repel and rotate the peripheral device when it is in a second orientation relative to the engagement surface.
US11670966B2
A wireless power transmission apparatus including a controller configured to perform a negotiation for a first available power indicator with a wireless power reception apparatus; and a power converter configured to transmit a wireless power to the wireless power reception apparatus according to the first available power indicator. The controller transmits, to the wireless power reception apparatus in response to a received power packet, a bit pattern response requesting a communication by the wireless power transmission apparatus to change the first available power indicator, and transmits a packet related to a second available power indicator to the wireless power reception apparatus. Further, the bit pattern response is composed of 8 bits, and the bit pattern response is defined as a different pattern from a bit pattern for an 8-bit ACK response, an 8-bit NAK response and an 8-bit ND response.
US11670960B2
A power plant is configured to output power to a grid power system and comprises a hydrogen generation system configured to produce hydrogen, a gas turbine combined cycle power plant comprising a gas turbine engine configured to combust hydrogen from the hydrogen generation system to generate a gas stream that can be used to rotate a turbine shaft and a heat recovery steam generator (HRSG) configured to generate steam with the gas stream of the gas turbine engine to rotate a steam turbine, a storage system configured to store hydrogen produced by the hydrogen generation system, and a controller configured to operate the hydrogen generation system with electricity from the grid power system when the grid power system has excess energy and balance active and reactive loads on the grid power system using at least one of the hydrogen generation system and the gas turbine combined cycle power plant.
US11670949B2
A secondary battery built in a bio-signal measuring instrument (a wearable biosensor) is charged without using a dedicated charging terminal. A bio-signal measuring device includes: a battery as an internal power source and a charging circuit for the battery; electrodes which are brought into contact with the skin surface of the human body at the time of bio-signal measurement and are connected to a predetermined power feeder at the time of charging of the battery; a bio-signal processing circuit which processes bio-signals detected at the electrodes in a predetermined manner; and a bio-signal and feed power distribution device, in which the bio-signal processing circuit and the charging circuit are switchably connected to the electrodes through the bio-signal and feed power distribution device, and at the time of the charging of the battery, the electrodes are used as charging terminals.
US11670947B2
Battery management circuits include a first charging channel, a Cuk circuit, and a communication control circuit. A battery is charged through the first charging channel based on charging voltage and/or charging current provided by a power supply device. The battery includes a first cell and a second cell coupled in series. The communication control circuit is configured to communicate with the power supply device, to make magnitude of the charging voltage and/or charging current provided by the power supply device match a present charging stage of the battery, and the communication control circuit is further configured to send a drive signal to the Cuk circuit to drive the Cuk circuit to work, to make energy of the first cell and the second cell be transferred through the Cuk circuit to balance voltage of the first cell and voltage of the second cell.
US11670929B2
A junction assembly is disclosed herein. The junction assembly includes a junction housing configured to support a phase bar assembly. A heatsink contacts at least a portion of the junction housing and a busbar is arranged adjacent to the junction housing. At least one fastener attaches the junction housing, the heatsink, and the busbar to each other. At least one heatsink seal is provided at an interface defined between the heatsink and the junction housing.
US11670928B2
A high voltage distribution system is provided with multiple fuses. The high voltage distribution system includes multiple laminated busbars that are electrically coupled to a battery and to the multiple fuses. Busbars are electrically coupled to the one or more fuses via electrical connections between the busbars and the fuses. The electrical connections can pass through other busbars without having an electrical coupling to the other busbars. An insulating layer may be used between the busbars to prevent overcurrent events. The configuration, size, and position of each busbar is selected based on the electrical requirements of components that are electrically coupled to the busbar and based on the prevention of overcurrent events.
US11670923B2
An extruded aluminum conduit comprising a substantially cylindrical body including defining a conduit interior. The body may include an exterior surface defined by an outer diameter and an interior surface defined by an inner diameter. The conduit may include one or more protrusions protruding from the interior surface of the body toward the conduit interior and away from the exterior surface. The one or more protrusions may run substantially continuously from a first end of the body to a second end of the body.
US11670920B2
An enhanced apparatus and method for securing a wire to a pulling cable for pulling wire. Specifically, the pulling cable and wire are attached via a pulling head body. The wire is inserted into an end of the pulling head body and secured by crimping the pulling head body against the wire. Further, crimp zone indicators positioned on the outer surface of the pulling head body indicate the optimal zone of crimping to achieve substantial contact between the pulling head body and the wire. A pulling cable is secured to the pulling head body via a ball swage that comprises a tapped surface.
US11670919B2
A switchgear or control gear includes: at least one first compartment; a second compartment; a plurality of main switchgear or control gear components, the plurality of main switchgear or control gear components including a main busbar system, a three position linear or rotational movement disconnector, a circuit breaker, and a cable connection; and a plurality of auxiliary switchgear or control gear components, the plurality of auxiliary switchgear or control gear components including a disconnector drive and a circuit breaker drive. The plurality of main switchgear or control gear components are housed in the at least one first compartment. The plurality of auxiliary switchgear or control components are housed in the second compartment. The circuit breaker and three position or rotational movement disconnector are mounted vertically in the at least one first compartment.
US11670915B2
A composite sparking component for a spark plug that has a thin precious metal layer with a series of grooves attached to an underlying base layer. The grooves allow the precious metal layer, and hence the entire composite sparking component, to be more easily bent or formed into a desired shape, while at the same time minimizing the amount of precious metal and providing enhanced sparking sites along the edges of the grooves. In one example, the composite sparking component is a sleeve-shaped component attached to a center electrode. In a different example, the composite sparking component is a ring-shaped component attached to a ground electrode. The precious metal layer may be bonded to the base layer in the form of a bimetal laminate structure, or the precious metal layer can be built on the base layer with the use of additive manufacturing, to cite several possibilities.
US11670911B2
A light emitting device is provided that makes it possible to reduce absorption of light by an electrode. The light emitting device includes a substrate, and a laminated structure provided to the substrate, wherein the laminated structure includes a first semiconductor layer, a second semiconductor layer different in conductivity type from the first semiconductor layer, and an active layer disposed between the first semiconductor layer and the second semiconductor layer, the first semiconductor layer is disposed between the substrate and the active layer, a recessed part is disposed at an opposite side to the substrate side of the laminated structure, the recessed part is provided with a low refractive-index part lower in refractive index than the second semiconductor layer, a depth of the recessed part is no larger than a distance between a surface at an opposite side to the substrate side of the laminated structure and the active layer, and an electrode is disposed at an opposite side to the substrate side of the laminated structure.
US11670910B2
A method for manufacturing a GaN-based surface-emitting laser by an MOVPE includes: (a) growing a first cladding layer with a {0001} growth plane; (b) growing a guide layer on the first cladding layer; (c) forming holes which are two-dimensionally periodically arranged within the guide layer; (d) etching the guide layer by ICP-RIE using a chlorine-based gas and an argon; (e) supplying a gas containing a nitrogen to cause mass-transport, and then supplying the group-III gas for growth, whereby a first embedding layer closing openings of the holes is formed to form a photonic crystal layer; and (f) growing an active layer and a second cladding layer on the first embedding layer, The step (d) includes a step of referring to already-obtained data on a relationship of an attraction voltage and a ratio of gases in the ICP-RIE with a diameter distribution of air holes embedded, and applying the attraction voltage and the ratio to the ICP-RIE.
US11670907B2
A laser device includes front and back DBRs and an interferometer. The front DBR is coupled to a front DBR electrode. The front DBR forms a first tunable multi-peak lasing filter. The back DBR is coupled to a back DBR electrode. The back DBR forms a second tunable multi-peak lasing filter. The interferometer part is coupled between the front DBR and the back DBR. The interferometer part includes first and second waveguide combiners and first and second interferometer waveguides coupled therebetween. The first waveguide combiner couples the interferometer part to the back DBR. The second waveguide combiner couples the interferometer part to the front DBR. The first interferometer waveguide is coupled to an interferometer electrode. The interferometer forms a third tunable multi-peak lasing filter.
US11670902B2
A method aligns a crimping cassette crimping tool in a cable processing apparatus having a tensioning device for applying tension to a mounting part relative to a crimping device attachment surface. The crimping cassette includes the crimping tool having cooperating stationary and movable tool parts for crimping and a holding device that attaches to the mounting part fixed to the stationary tool part and has a position allowing a spatially-limited adjustment movement of the stationary tool part. The method includes releasing the tensioning device; inserting the stationary tool part into a tensioning device area; moving the moveable tool part towards the stationary tool part slightly before it touches the stationary tool part; moving the moveable tool part towards the stationary tool part until a pressing force between the tool parts is reached or exceeded and an alignment occurs between the tool parts; and applying tension with the tensioning device.
US11670885B2
A terminal fitting 10 includes a body portion 11 in the form of an angular tube. The body portion 11 includes a first wall portion 21, a second wall portion 22, a third wall portion 23 and a fourth wall portion 24 continuous in a circumferential direction. The first and second wall portions 21, 22 are continuous via a first corner portion 26. The second and third wall portions 22, 23 are continuous via a second corner portion 27. The third and fourth wall portions 23, 24 are continuous via a third corner portion 28. The fourth wall portion 24 includes restricting portions 31 to be overlapped on an end part of the first wall portion 21 opposite to the first corner portion from outside. The first wall portion includes projecting portions 42, 43 projecting outward at positions away from the restricting portions 31 toward the first corner portion.
US11670884B2
A single-row electrical wire structure includes a first circuit board and a wire assembly. A board-to-board connector is on the first circuit board. The first circuit board includes a first group of contacts arranged into a single row. A distance between center portions of adjacent two contacts of the first group of contacts forms a width. The wires assembly includes a plurality of high-speed signal pairs and at least one low-speed signal pair respectively connected to the first group of contacts. A first spacing between a contact in the first group of contacts corresponding to a first high-speed signal pair of the high-speed signal pairs and a contact in the first group of contacts corresponding to a second high-speed signal pair of the high-speed signal pairs adjacent to the first high-speed signal pair is at least equal to or greater than 2 times of the width.
US11670881B2
In some embodiments, systems and methods for connector assembly for use with an AC or DC power interface of a power conversion device, such as a converter and an inverter, are provided. The connector assembly can include a circuit board, a power connector, and a pin. The power connector can have a base configured to be secured relative to the circuit board and define a first channel extending through the power connector along a first channel axis. The first pin can have a first pin body that extends along a first pin axis and a first connection element that extends along the first pin axis from the first pin body to a first terminal end that is skewed relative to the first pin axis.
US11670870B2
An antenna module includes: an integrated circuit (IC) package including an IC, first and second antenna parts including first and second patch antenna patterns, first and second feed vias, and first and second dielectric layers, respectively; a connection member having a laminated structure having a first surface on which the first and second antenna parts are disposed, and a second surface, on which the IC package is disposed, the connection member further including an electrical connection path between the IC and the first and second feed vias. The connection member has a first region and a second region that is more flexible than the first dielectric layer. The first and second antenna parts are disposed on the first and second regions, respectively. Either one or both of the first and second antenna parts further includes a connection structure having a lower melting point than the first or second feed via.
US11670866B2
A transmitting array antenna includes a second antenna group placed in a position inside a first antenna group in a first direction and a position different from the first antenna group in a second direction. A receiving array antenna includes a fourth antenna placed in a position outside a third antenna group arranged in the first direction and a position different from the third antenna group in the second direction. An interelement spacing between a receiving antenna of the third antenna group located at an end on a second side is identical to an interelement spacing in the first direction between a transmitting antenna of the first antenna group on the first side and each of the second antenna group. In a case where the first antenna group and the third antenna group are identical in position in the second direction, positions of antennas are different.
US11670857B2
An antenna apparatus includes a first patch antenna pattern comprising a through-hole, a second patch antenna pattern disposed above the first patch antenna pattern and spaced apart from the first patch antenna pattern, a first feed via electrically connected to the first patch antenna pattern, a second feed via penetrating through the through-hole of the first patch antenna pattern, and a feed pattern disposed between the first patch antenna pattern and the second patch antenna pattern, and having one end connected to the second feed via, and another end connected to the second patch antenna pattern at a point closer to an edge of the second patch antenna pattern than the second feed.
US11670847B1
Aspects of the subject disclosure may include, for example, a motorized drive assembly that includes a motor and a drive assembly, where the drive assembly has an axle configured to be disposed through a rotatable substrate of a polarization shifter for a dual-polarized radiating element, the axle being further configured to fasten, at a first end of the axle, to a support structure of the polarization shifter, wherein, when the motorized drive assembly is assembled to the polarization shifter, the motor is controllable to impart rotational forces, via movement of the axle, to the polarization shifter to effect polarization adjusting for the dual-polarized radiating element. Other embodiments are disclosed.
US11670839B2
An antenna for a medical implant device is described. The antenna has a magnetic field radiator portion and an electric field radiator portion coupled to the magnetic field radiator portion. The magnetic and electric field radiators are arranged to result in generation, by the antenna, of at least one of a transverse electric leaky wave and a transverse magnetic leaky wave in lossy body tissue of a human or animal body such that the lossy body tissue acts as a waveguide for the transverse electric leaky wave or transverse magnetic leaky wave, whereby to optimize at least one of the efficiency of the antenna and the far field gain of the antenna.
US11670835B2
A wireless parking meter with an improved antenna location is described. The antenna may be located within a covering protruding from the top of the parking meter, allowing radio frequency (RF) signals to be transmitted through a portion of the parking meter with high permittivity to the RF signals. Additionally or alternatively, the antenna may be located within the parking meter housing above a lower parking meter mechanism housing so that RF signals can be transmitted through the dome covering of the parking meter, which may have a high permittivity to the RF signals.
US11670827B2
The present disclosure refers to a waveguide electromechanical relay switch having a rotor with transmission paths and an axis of rotation parallel to the base plane combined with an actuator adapted to the configuration. A 4-pol switch design enables compensation of fault cases in a relatively shortened length of transmission line, reducing potential RF loss. In one embodiment, a 4-pol rotor includes an offset transmission path that enables crossing of another path on the same rotor, providing increased functionality and fault-case recovery.
US11670825B2
A battery pack including a cell block including a group of battery cells electrically connected to each other; and a detector on a lateral surface of the cell block, the detector including an insulative body, a voltage detection lead, and a temperature detection lead, wherein the insulative body faces an outer peripheral surface of a first battery cell, the outer peripheral surface being exposed at the lateral surface of the cell block, and the voltage detection lead and the temperature detection lead are at least partially surrounded and fixed by the insulative body.
US11670792B2
A redox flow battery and battery system are provided. In one example, the redox flow battery includes a cell stack assembly having a plate assembly positioned on a lateral side of the cell stack assembly and comprising an elastic flange including a recess mated with a section of a conductive plate and compliant in at least one of a lateral direction and a vertical direction, and a plate frame coupled to the elastic flange.
US11670786B2
The low efficiency power generation part of a control device is provided with an operating point setting part setting a target current and a target voltage defining an operating point of the fuel cell at the time of low efficiency power generation and a generated electric power control part making the generated electric power of the fuel cell increase and decrease at the time of low efficiency power generation by controlling the current of the fuel cell to the target current while making the flow rate of feed of oxidizing agent gas supplied to the fuel cell fluctuate so that the voltage of the fuel cell increases and decreases above and below the target voltage within a range where the charged and discharged electric powers of the rechargeable battery do not become larger than the allowable charged and discharged electric powers.
US11670781B2
A fuel cell bipolar flow field plate and a fuel cell stack are provided. The fuel cell bipolar flow field plate includes a first gas channel and a second gas channel. Each of the gas channels has several sub-channels, each of the sub-channels has bending parts, and adjacent sub-channels have opposite flow directions. The sub-channels of the two gas channels form a four-leaf clover type pattern in a reaction area of the fuel cell bipolar flow field plate. A bending angle of each of the bending parts in the four-leaf clover type pattern is within 90 degrees.
US11670779B2
A metal support for an electrochemical element has a plate shape as a whole, and is provided with a plurality of penetration spaces that pass through the metal support from a front face to a back face. The front face is a face to be provided with an electrode layer. Each of front-side openings that are openings of the penetration spaces formed in the front face has an area of 3.0×10−4 mm2 or more and 3.0×10−3 mm2 or less.
US11670772B2
Negative electrode active material particles according to the present invention have composite particles that include: a sodium silicate phase with a Vickers hardness of 150 Hv or greater, and silicon particles dispersed in the sodium silicate phase.
US11670765B2
Provided are a positive electrode active material that can provide a nonaqueous electrolyte secondary battery having high energy density and excellent output characteristics, a nickel-manganese composite hydroxide as a precursor thereof, and methods for producing these. A nickel-manganese composite hydroxide is represented by General Formula (1): NixMnyMz(OH)2+α and contains a secondary particle formed of a plurality of flocculated primary particles. The nickel-manganese composite hydroxide has a half width of a diffraction peak of a (001) plane of at least 0.35° and up to 0.50° and has a degree of sparsity/density represented by [(a void area within the secondary particle/a cross section of the secondary particle)×100](%) within a range of greater than 10% and up to 25%.
US11670759B2
Disclosed are methods of making porous zinc electrodes. Taken together, the steps are: forming a mixture of water, a soluble compound that increases the viscosity of the mixture, an insoluble porogen, and metallic zinc powder; placing the mixture in a mold to form a sponge; optionally drying the sponge; placing the sponge in a metal mesh positioned to allow air flow through substantially all the openings in the mesh; heating the sponge in an inert atmosphere at a peak temperature of 200 to 420° C. to fuse the zinc particles to each other to form a sintered sponge; and heating the sintered sponge in an oxygen-containing atmosphere at a peak temperature of 420 to 700° C. to form ZnO on the surfaces of the sintered sponge. The heating steps burn out the porogen.
US11670757B2
A negative electrode plate for a lead-acid battery includes a negative electrode current collector and a negative electrode material. The negative electrode material contains an organic expander. The organic expander includes a condensate containing a bisphenol S unit and a phenolsulfonic acid unit.
US11670755B2
A solid-state battery cell includes a cathode, an anode, a solid-state electrolyte between the cathode and the anode, and an electrolyte-anode interfacial layer between the solid-state electrolyte and the anode. The electrolyte-anode interfacial layer comprises porous, high surface area carbon and nanostructures formed on an anode-facing surface of the solid-state electrolyte, wherein the nanostructures penetrate the porous, high surface area carbon.
US11670753B2
Provided is a metal-air battery including a cathode having a space which may be filled with a metal oxide formed during a discharge of the metal-air battery and thus having improved energy density and lifespan. The cathode for the metal-air battery includes a plurality of cathode materials, a plurality of electrolyte films disposed on surfaces of the plurality of cathode materials, and a plurality of spaces which are not occupied by the plurality of cathode materials and the plurality of electrolyte films. A volume of the plurality of spaces may be greater than or equal to a maximum space of a metal oxide formed during a discharge of the metal-air battery.
US11670750B2
A battery electrode composition is provided that comprises a composite material comprising one or more nanocomposites. The nanocomposites may each comprise a planar substrate backbone having a curved geometrical structure, and an active material forming a continuous or substantially continuous film at least partially encasing the substrate backbone. To form an electrode from the electrode composition, a plurality of electrically-interconnected nanocomposites of this type may be aggregated into one or more three-dimensional agglomerations, such as substantially spherical or ellipsoidal granules.
US11670737B2
A display device includes a first electrode extending in a first direction, a second electrode extending in the first direction and spaced apart from the first electrode in a second direction, a first light-emitting element disposed in a first area between the first electrode and the second electrode, a second light-emitting element disposed in a second area outside of the first area, a first contact electrode disposed on the first electrode and electrically connected with a first end of the first light-emitting element, a second contact electrode disposed on the second electrode and electrically connected with a second end of the first light-emitting element and a first end of the second light-emitting element, and a third contact electrode disposed on the first electrode and electrically connected with a second end of the second light-emitting element.
US11670735B2
An electrical power converter can include a plurality of layers disposed on a substrate. An emitter, including a first semiconductor junction that is formed at an interface between a first pair of adjacent layers, can produce light in response to a first electrical signal. An absorber, including a second semiconductor junction that is formed at an interface between a second pair of adjacent layers, can absorb at least some of the light. Circuitry can produce a second electrical signal in response to the absorbed light. The second electrical signal can be substantially proportional to the first electrical signal and can be electrically isolated from the first electrical signal. Because the light can remain within the layers during use, the electrical power converter can have a higher efficiency than a comparable device that propagates the light through at least one interface between air and a semiconductor material.
US11670728B2
A multijunction solar cell including interconnected first and second discrete semiconductor regions disposed adjacent and parallel to each other including first top solar subcell, second (and possibly third) lattice matched middle solar subcells; a graded interlayer adjacent to the last middle solar subcell; and a bottom solar subcell adjacent to said graded interlayer being lattice mismatched with respect to the last middle solar subcell; wherein an opening is provided from the bottom side of the semiconductor substrate to one or more of the solar subcells so as to allow a discrete electrical connector to be made extending in free space and to electrically connect contact pads on one or more of the solar subcells.
US11670718B2
A semiconductor device structure is provided. The semiconductor device structure includes a substrate having a base and a fin over the base. The semiconductor device structure also includes a first nanostructure over the fin and a second nanostructure over the first nanostructure. The semiconductor device structure further includes a gate stack wrapping around an upper portion of the fin, the first nanostructure, and the second nanostructure. In addition, the semiconductor device structure includes a first inner spacer between the fin and the first nanostructure and a second inner spacer between the first nanostructure and the second nanostructure. The semiconductor device structure includes a first low dielectric constant structure in the first inner spacer and a second low dielectric constant structure in the second inner spacer. The first low dielectric constant structure is larger than the second low dielectric constant structure.
US11670713B2
An LDMOS includes a semiconductor substrate. A well is disposed within the semiconductor substrate. A body region is disposed within the well. A first gate electrode is disposed on the semiconductor substrate. A source electrode is disposed at one side of the first gate electrode. The source electrode includes a source contact area and numerous vias. The vias connect to the source contact area. The vias extend into the semiconductor substrate. A first drain electrode is disposed at another side of the first gate electrode and is opposed to the source electrode.
US11670706B2
In a general aspect, method of producing an insulated-gate bipolar transistor (IGBT) device can include forming a termination structure in an inactive region. The inactive region at least partial surround an active region. The method can also include forming a trench extending along a longitudinal axis in the active region. A first mesa can define a first sidewall of the trench, and a second mesa can define a second sidewall of the trench. The first mesa and the second mesa can be parallel with the trench. The method can further include forming, in at least a portion of the first mesa, an active segment of the IGBT device, and, forming, in at least a portion of the second mesa, an inactive segment of the IGBT device.
US11670698B2
A method of fabricating a semiconductor device includes forming a first stack of semiconductor layers on a substrate. The first stack of semiconductor layers includes alternating first and second semiconductor strips. The first and second semiconductor strips includes first and second semiconductor materials, respectively. The method also includes removing the first semiconductor strips to form voids between the second semiconductor strips in the first stack of semiconductor layers. The method further includes depositing a dielectric structure layer and a first conductive fill material in the voids to surround the second semiconductor strips. Further, the method includes removing the second semiconductor strips to form a second set of voids, and depositing a third semiconductor material in the second sets of voids.
US11670686B2
A method for forming III-N structures of desired nanoscale dimensions is disclosed. The method is based on, first, providing a material to serve as a shell inside which a cavity can be formed, followed by using epitaxial growth to fill the cavity with III-N semiconductor(s). Filling a cavity of specified shape and dimensions with a III-N semiconductor results in formation of a III-N structure which has shape and dimensions defined by those of the cavity in the shell, advantageously enabling formation of III-N structures on a nanometer scale without having to rely on etching of III-N materials. Ensuring that at least a part of the III-N material in the cavity is formed by lateral epitaxial overgrowth allows obtaining high quality III-N semiconductor in that part without having to grow a thick layer. Disclosed III-N nanostructures can serve as foundation for fabricating III-N device components, e.g. III-N transistors, having non-planar architecture.
US11670684B2
The application relates to a semiconductor transistor device, having a source region, a body region including a channel region extending in a vertical direction, a drain region, a gate region arranged aside the channel region in a lateral direction, and a body contact region made of an electrically conductive material, wherein the body contact region forms a body contact area, the body contact region being in an electrical contact with the body region via the body contact area, and wherein the body contact area is tilted with respect to the vertical direction and the lateral direction.
US11670683B2
A FinFET is provided including a channel region containing a constituent element and excess atoms, the constituent element belonging to a group of the periodic table of elements, wherein said excess atoms are nitrogen, or belong to said group of the periodic table of elements, and a concentration of said excess atoms in the channel region is in the range between about 1019 cm−3 and about 1020 cm−3.
US11670676B2
An integrated circuit device includes: a fin-type active region on a substrate and including a fin top surface at a first level; a gate line on the fin-type active region; and an insulating structure on a sidewall of the fin-type active region. The insulating structure includes: a first insulating liner in contact with a sidewall of the fin-type active region; a second insulating liner on the first insulating liner and including an uppermost portion at a second level c than the first level; a lower buried insulating layer facing the sidewall of the fin-type active region and including a first top surface facing the gate line at a third level lower than the second level; and an upper buried insulating layer between the lower buried insulating layer and the gate line and including a second top surface at a fourth level equal to or higher than the second level.
US11670672B2
Capacitor structures with low capacitances are disclosed. In one example, a capacitor structure is disclosed. The capacitor structure includes a first electrode and a second electrode. The first electrode comprises a first metal finger. The second electrode comprises a second metal finger and a third metal finger that are parallel to each other and to the first metal finger. The first metal finger is formed between the second metal finger and the third metal finger. The capacitor structure further includes: a fourth metal finger formed as a dummy metal finger between the first metal finger and the second metal finger, and a fifth metal finger formed as a dummy metal finger between the first metal finger and the third metal finger. The fourth metal finger and the fifth metal finger are parallel to the first metal finger.
US11670663B2
The present disclosure, in some embodiments, relates to an image sensing integrated chip. The image sensing integrated chip includes a semiconductor substrate having sidewalls defining one or more trenches on opposing sides of a region of the semiconductor substrate. One or more dielectrics are disposed within the one or more trenches. The semiconductor substrate has a plurality of flat surfaces arranged between the one or more trenches. Adjacent ones of the plurality of flat surfaces define a plurality of triangular shaped protrusions and alternative ones of the plurality of flat surfaces are substantially parallel to one another, as viewed along a cross-sectional view.
US11670661B2
An image sensor includes; a substrate having a first surface and an opposing second surface and including unit pixels respectively having photoelectric conversion regions, a semiconductor pattern disposed in a first trench defining the unit pixels, the semiconductor pattern including a first semiconductor layer provided on an inner surface of the first trench and a second semiconductor layer provided on the first semiconductor layer, and a first contact provided on the second surface and connected to the semiconductor pattern. A height of the first semiconductor layer from a bottom surface of the first trench is less than a height of the second semiconductor layer from the bottom surface of the first trench.
US11670660B2
A pixel array included in an auto-focus image sensor includes a substrate, a plurality of pixels, a deep device isolation region and a plurality of first ground regions. The substrate includes a first surface on which a gate electrode is disposed and a second surface opposite to the first surface. The plurality of pixels are disposed in the substrate, and include a plurality of first pixels configured to detect a phase difference and a plurality of second pixels configured to detect an image. The deep device isolation region is disposed in the substrate, extends substantially vertically from the second surface of the substrate to isolate the plurality of pixels from each other. The plurality of first ground regions are disposed adjacent to the first surface in the substrate and adjacent to only at least some of the plurality of first pixels.
US11670653B2
An imaging device includes: a photoelectric converter including first and second electrodes, and a photoelectric conversion layer located between the first electrode and the second electrode; a voltage supply circuit applying a bias voltage between the first electrode and the second electrode; an amplifier transistor including a gate electrically connected to the second electrode, the amplifier transistor configured to output a signal corresponding to a potential of the second electrode; and a detection circuit configured to detect a level of the signal from the amplifier transistor. The voltage supply circuit applies the bias voltage in a first voltage range when the level detected by the detection circuit is greater than or equal to a first threshold value, and applies the bias voltage in a second voltage range that is greater than the first voltage range when the level detected by the detection circuit is less than a second threshold value.
US11670651B2
A pixel array includes octagon-shaped pixel sensors and a combination of visible light pixel sensors (e.g., red, green, and blue pixel sensors) and near infrared (NIR) pixel sensors. The color information obtained by the visible light pixel sensors and the luminance obtained by the NIR pixel sensors may be combined to increase the low-light performance of the pixel array, and to allow for low-light color images in low-light applications. The octagon-shaped pixel sensors may be interspersed in the pixel array with square-shaped pixel sensors to increase the utilization of space in the pixel array, and to allow for pixel sensors in the pixel array to be sized differently. The capability to accommodate different sizes of visible light pixel sensors and NIR pixel sensors permits the pixel array to be formed and/or configured to satisfy various performance parameters.
US11670650B2
A semiconductor device includes a first semiconductor structure and a second semiconductor structure. The first semiconductor structure includes silicon. The second semiconductor structure is embedded in the first semiconductor structure, in which the second semiconductor structure has at least one convex portion and at least one concave portion. The convex portion and the concave portion are on at least one edge of the second semiconductor structure, and a shape of the concave portion includes rectangle, trapezoid, inverted trapezoid, or parallelogram. The second semiconductor structure includes germanium, elements of group III or group V, or combinations thereof.
US11670647B2
Various embodiments of the present disclosure are directed towards an integrated chip (IC). The IC comprises a first phase detection autofocus (PDAF) photodetector and a second PDAF photodetector in a substrate. A first electromagnetic radiation (EMR) diffuser is disposed along a back-side of the substrate and within a perimeter of the first PDAF photodetector. The first EMR diffuser is spaced a first distance from a first side of the first PDAF photodetector and a second distance less than the first distance from a second side of the first PDAF photodetector. A second EMR diffuser is disposed along the back-side of the substrate and within a perimeter of the second PDAF photodetector. The second EMR diffuser is spaced a third distance from a first side of the second PDAF photodetector and a fourth distance less than the third distance from a second side of the second PDAF photodetector.
US11670642B2
A light emitting display apparatus includes a substrate, a first metal line and a second metal line spaced apart from each other along a first direction on the substrate and disposed along a second direction crossing the first direction, and a subpixel overlapped with at least one of the first metal line and the second metal line. The subpixel includes a first light emission portion between the first metal line and the second metal line, and a second light emission portion overlapped with at least one of the first metal line and the second metal line.
US11670635B2
A representative method for manufacturing fin field-effect transistors (FinFETs) includes steps of forming a plurality of fin structures over a substrate, and forming a plurality of isolation structures interposed between adjacent pairs of fin structures. Upper portions of the fin and isolation structures are etched. Epitaxial structures are formed over respective fin structures, with each of the epitaxial structures adjoining adjacent epitaxial structures. A dielectric layer is deposited over the plurality of epitaxial structures with void regions formed in the dielectric layer. The void regions are interposed between adjacent pairs of fin structures.
US11670630B2
Some examples described herein provide for a multi-chip structure including one or more memory dies stacked on a die having a programmable integrated circuit (IC). In an example, a multi-chip structure includes a package substrate, a first die, and a second die. The first die includes a programmable IC, and the programmable IC includes a memory controller. The first die is on and attached to the package substrate. The second die includes memory. The second die is stacked on the first die. The memory is communicatively coupled to the memory controller.
US11670623B2
A semiconductor package is provided. The semiconductor package includes a first substrate, a first semiconductor chip disposed on the first substrate, a heat sink structure comprising a lower heat sink pattern disposed on the first semiconductor chip, a metal film pattern disposed on the lower heat sink pattern, and an insulating film disposed on side walls of the lower heat sink pattern and side walls of the metal film pattern, an interposer disposed on the heat sink structure, and a solder ball which connects the heat sink structure and the interposer.
US11670614B2
Certain aspects of the present disclosure generally relate to an integrated circuit assembly. One example integrated circuit assembly generally includes a first reconstituted assembly, a second reconstituted assembly, and a third reconstituted assembly. The first reconstituted assembly comprises at least one passive component and a first bonding layer. The second reconstituted assembly is disposed above the first reconstituted assembly and comprises one or more first semiconductor dies, a second bonding layer bonded to the first bonding layer of the first reconstituted assembly, and a third bonding layer. The third reconstituted assembly is disposed above the second reconstituted assembly and comprises one or more second semiconductor dies and a fourth bonding layer bonded to the third bonding layer of the second reconstituted assembly.
US11670611B2
A semiconductor package comprising plurality of bumps and fabricating method thereof. The package has a chip, a plurality of first and second bumps, an encapsulation, a redistribution. The chip has a plurality of pads and an active area and the active surface has a first area and a second area surrounding the first, the pads formed on a first area of the active surface, each first bump formed on the corresponding pad. The second bumps are formed on the second area, each second bump has first and second different width layers. The encapsulation encapsulates the chip and bumps and is ground to expose the bumps therefrom. During grinding, all of the first bumps are completely exposed by determining a width of an exposed surface of the second bump to electrically connect to the redistribution is increased. Therefore, a shallow-grinding or over-grinding does not occur.
US11670609B2
A method of forming a semiconductor device includes forming a plurality of metal pads over a semiconductor substrate of a wafer, forming a passivation layer covering the plurality of metal pads, patterning the passivation layer to reveal the plurality of metal pads, forming a first polymer layer over the passivation layer, forming a plurality of redistribution lines extending into the first polymer layer and the passivation layer to connect to the plurality of metal pads, forming a second polymer layer over the first polymer layer, and patterning the second polymer layer to reveal the plurality of redistribution lines. The first polymer layer is further revealed through openings in remaining portions of the second polymer layer.
US11670606B2
A high-frequency device includes a second substrate disposed opposite to a first substrate, a first electrode disposed on a side surface of the first substrate adjacent to the second substrate, a second electrode disposed on a side surface of the second substrate adjacent to the first substrate, a sealant disposed between the first substrate and the second substrate, and a dielectric layer sandwiched between the first substrate and the second substrate by the sealant. The dielectric layer includes a gas or vacuum.
US11670605B2
A transistor amplifier includes a group III-nitride based amplifier die including a gate terminal, a drain terminal, and a source terminal on a first surface of the amplifier die and an interconnect structure electrically bonded to the gate terminal, drain terminal and source terminal of the amplifier die on the first surface of the amplifier die and electrically bonded to an input path and output path of the transistor amplifier.
US11670599B2
Packages are configured to include an electromagnetic interference (EMI) shield. According to one example, a package includes a substrate, an electrical component, and an EMI shield. The substrate includes a first surface and a second surface. The electrical component may be coupled to the first side of the substrate. The EMI shield is formed with at least one passive device. The at least one passive device is coupled to the first surface of the substrate. The at least one passive device is located laterally to the at least one electrical component, and extends along at least a portion of the electrical component. Other aspects, embodiments, and features are also included.
US11670597B2
A method for forming a package structure is provided. The method includes forming a first molding compound layer surrounding a first interposer. The method also includes forming a first redistribution structure over a first side of the first interposer and the first molding compound layer. The method also includes bonding a first semiconductor die and a second semiconductor die to the first redistribution structure through a plurality of first connectors. The method also includes bonding a surface-mount device (SMD) to the first redistribution structure through a second connector. The method also includes forming a second redistribution structure over a second side of the first interposer opposite the first side of the first interposer. A top surface of the surface-mount device (SMD) is lower than top surfaces of the first semiconductor die and the second semiconductor die.
US11670596B2
A semiconductor package structure includes a substrate, a first redistribution layer, a second redistribution layer, a bridge structure, a first semiconductor component, and a second semiconductor component. The first redistribution layer is over the substrate. The second redistribution layer is over the first redistribution layer. The bridge structure is between the first redistribution layer and the second redistribution layer, wherein the bridge structure includes an active device. The first semiconductor component and the second semiconductor component are located over the second redistribution layer, wherein the first semiconductor component is electrically coupled to the second semiconductor component through the second redistribution layer and the bridge structure.
US11670594B2
Semiconductor structures and method of forming the same are provided. A semiconductor structure according to the present disclosure includes a contact feature in a dielectric layer, a passivation structure over the dielectric layer, a conductive feature over the passivation structure, a seed layer disposed between the conductive feature and the passivation structure, a protecting layer disposed along sidewalls of the conductive feature, and a passivation layer over the conductive feature and the protecting layer.
US11670593B2
An electronic device and a manufacturing method thereof are provided. The method includes at least the following steps. An insulating encapsulant is formed to encapsulate a multi-layered structure and a semiconductor die, where the multi-layered structure includes a first conductor, a diffusion barrier layer on the first conductor, and a metallic layer on the diffusion barrier layer, and the insulating encapsulant at least exposes a portion of the semiconductor die and a portion of the first conductor. A redistribution structure is formed over the insulating encapsulant, the semiconductor die, and the first conductor. The metallic layer is removed to form a recess in the insulating encapsulant. A second conductor is formed in the recess over the diffusion barrier layer, where the first conductor, the diffusion barrier layer, and the second conductor form a conductive structure that is electrically coupled to the semiconductor die through the redistribution structure.
US11670590B2
A chip structure is provided. The chip structure includes a substrate. The chip structure includes an interconnect structure over the substrate. The chip structure includes a conductive pad over the interconnect structure. The chip structure includes a passivation layer covering the interconnect structure and exposing the conductive pad. The chip structure includes a first etch stop layer over the passivation layer. The chip structure includes a first buffer layer over the first etch stop layer. The chip structure includes a second etch stop layer over the first buffer layer. The chip structure includes a device element over the second etch stop layer.
US11670588B2
Integrated circuits including selectable vias are disclosed. The techniques are particularly well-suited to back end of line (BEOL) processes. In accordance with some embodiments, a selectable via includes a vertically-oriented thin film transistor structure having a wrap around gate, which can be used to effectively select (or deselect) the selectable via ad hoc. When a selectable via is selected, a signal is allowed to pass through the selectable via. Conversely, when the selectable via is not selected, a signal is not allowed to pass through the selectable via. The selectable characteristic of the selectable via allows multiple vias to share a global interconnect. The global interconnect can be connected to any number of selectable vias, as well as standard vias.
US11670576B2
A wiring board includes: a metal plate having first and second surfaces opposite to each other, and having at least one through-hole penetrating through the first and second surfaces; at least one conductive via respectively disposed in the through-hole and spaced apart from the metal plate; an insulating structure including at least one through-insulating portion disposed between the through-hole and the conductive via, and a first insulating layer and a second insulating layer extending from the through-insulating portion and disposed in first regions surrounding the conductive via, on the first surface and the second surface, respectively; at least one first upper pad disposed on the first insulating layer and electrically connected to the conductive via; at least one first lower pad disposed on the second insulating layer and electrically connected to the conductive via; a second upper pad disposed on the first surface of the metal plate; and a second lower pad disposed on the second surface of the metal plate and electrically connected to the first upper pad through the metal plate.
US11670570B2
An electronic device includes a substrate, at least one electronic element on the substrate, a heat dissipating pad on the substrate in thermal contact with the at least one electronic element, and including an encapsulated phase change material therein, and a bracket covering the substrate, the at least one electronic element and the heat dissipating pad.
US11670568B2
A semiconductor device including a semiconductor chip having a first surface and a second surface opposite to the first surface, a first heat dissipation member on the second surface of the semiconductor chip, the first heat dissipation member having a vertical thermal conductivity in a direction perpendicular to the second surface, and a horizontal thermal conductivity in a direction parallel to the second surface, the first vertical thermal conductivity being smaller than the first horizontal thermal conductivity, and a second heat dissipation member comprising a vertical pattern penetrating the first heat dissipation member, the second heat dissipation member having a vertical thermal conductivity that is greater than the vertical thermal conductivity of the first heat dissipation member may be provided.
US11670551B2
The present disclosure provides methods of fabricating a semiconductor device. A method according to one embodiment includes forming, on a substrate, a first fin formed of a first semiconductor material and a second fin formed of a second semiconductor material different from the first semiconductor material, forming a semiconductor cap layer over the first fin and the second fin, and annealing the semiconductor cap layer at a first temperature while at least a portion of the semiconductor cap layer is exposed.
US11670549B2
A semiconductor package which is free of metal debris from backside metallization (BSM) is disclosed. The semiconductor package is singulated by performing a saw street open process from the frontside of the wafer and then includes a singulation process using a plasma etch from the backside of the wafer with BSM. The singulation process results in metal debris free packages.
US11670539B2
A method of making a semiconductor arrangement includes forming a first layer of molecular ions in a first wafer interface region of a first wafer, forming a second layer of molecular ions in a second wafer interface region of a second wafer, forming a first molecular bond connecting the first wafer interface region to the second wafer interface region by applying pressure to at least one of the first wafer or the second wafer in a direction toward the first wafer interface region and the second wafer interface region, and annealing the first wafer and the second wafer to form a second molecular bond connecting the first wafer interface region to the second wafer interface region.
US11670537B2
A method of manufacturing a semiconductor device, which has buried gate electrodes, includes: forming a plurality of gate trenches in a substrate having a plurality of active regions defined by a device isolation film, the plurality of gate trenches crossing the plurality of active regions and extending parallel to each other in a first horizontal direction; selectively forming a first gate insulating layer on an exposed surface of the substrate; forming a second gate insulating layer on exposed surfaces of both the first gate insulating layer and the device isolation film; and forming a plurality of gate insulating layers by partially removing the first gate insulating layer and the second gate insulating layer, and forming a plurality of buried gate electrodes.
US11670535B2
A carrier plate for receiving a wafer includes a pocket defined in a middle section on a top surface of the carrier plate and has a surface diameter. The pocket defines a substrate support region. A retaining feature of the carrier plate is defined at an outer edge of the pocket. A tapered portion of the carrier plate extends from the retaining feature to an outer diameter. The tapered portion is configured to receive a focus ring. A bottom surface of the carrier plate is configured to sit over a pedestal that is used in a process chamber. A plurality of wafer supports is disposed on a top surface of the substrate support region to support the wafer, when received.
US11670532B1
A system and method for controlling electrostatic clamping of multiple platens on a spinning disk is disclosed. The system comprises a semiconductor processing system, such as a high energy implantation system. The semiconductor processing system produces a spot ion beam, which is directed to a plurality of workpieces, which are disposed on a spinning disk. The spinning disk comprises a rotating central hub with a plurality of platens. The plurality of platens may extend outward from the central hub and workpieces are electrostatically clamped to the platens. The central hub provides the electrostatic clamping voltages to each of the plurality of platens. Further, the plurality of platens may also be capable of rotation about an axis orthogonal to the rotation axis of the central hub. The central hub controls the rotation of each of the platens. Power connections and communications are provided to the central hub via the spindle assembly.
US11670527B2
A substrate processing apparatus includes a first atmosphere control system configured to control an atmosphere inside a processing zone of a substrate processing area and a second atmosphere control system configured to control an atmosphere inside a substrate transfer zone of the substrate processing area. The first atmosphere control system supplies, when a liquid processing is performed in a liquid processing unit, an atmosphere control gas to the corresponding liquid processing unit by a first gas supply, and discharges an atmosphere inside the corresponding liquid processing unit by a first gas discharge unit. The second atmosphere control system circulates an atmosphere adjustment gas in a circulation system of the corresponding second atmosphere control system, and discharges an atmosphere inside the circulation system of the second atmosphere control system when at least one of the liquid processing unit is opened to the substrate transfer zone.
US11670526B2
An electronic component mounting device is provided for mounting a plurality of electronic components, the plurality of the electronic component being placed in a predetermined portion, on a plurality of attachments each arranged at a predetermined interval from one another. The electronic component mounting device includes a removal mechanism for removing some of the plurality of the electronic components having been placed in the predetermined portion, a transport mechanism for transporting the electronic components removed by the removal mechanism, moving the electronic components so that intervals between the electronic components adjacent to one another are, respectively, the predetermined interval before reaching the attachments, and transporting the electronic components to the attachments, and a mounting and transfer mechanism for mounting the electronic components, which have been transported by the transport mechanism, on predetermined positions of the attachments.
US11670524B2
An apparatus and method for debonding a pair of bonded wafers are disclosed herein. In some embodiments, the debonding apparatus, comprises: a wafer chuck having a preset maximum lateral dimension and configured to rotate the pair of bonded wafers attached to a top surface of the wafer chuck, a pair of circular plate separating blades including a first separating blade and a second separating blade arranged diametrically opposite to each other at edges of the pair of bonded wafers, wherein the first and the second separating blades are inserted between a first and a second wafers of the pair of bonded wafers, and at least two pulling heads configured to pull the second wafer upwardly so as to debond the second wafer from the first wafer.
US11670517B2
An alkaline etchant containing a quaternary ammonium hydroxide, water, and an inhibitory substance for inhibiting contact between hydroxide ions generated from the quaternary ammonium hydroxide and objects P1 to P3 to be etched is prepared. The prepared etchant is supplied to a substrate in which the polysilicon-containing objects P1 to P3 to be etched and objects O1 to O3 not to be etched, which are different from the objects P1 to P3 to be etched, are exposed, thereby etching the objects P1 to P3 to be etched while preventing the objects O1 to O3 not to be etched from being etched.
US11670516B2
Various embodiments herein relate to methods, apparatus, and systems for etching a feature in a substrate. Typically the feature is etched in a dielectric-containing stack. The etching process involves cyclically etching the feature and depositing a protective film on sidewalls of the partially etched feature. These stages are repeated until the feature reaches its final depth. The protective film may have a particular composition, for example including at least one of a tungsten carbonitride, a tungsten sulfide, tin, a tin-containing compound, molybdenum, a molybdenum-containing compound, a ruthenium carbonitride, a ruthenium sulfide, an aluminum carbonitride, an aluminum sulfide, zirconium, and a zirconium-containing compound. A number of optional steps may be taken including, for example, doping the mask layer, pre-treating the substrate prior to deposition, removing the protective film from the sidewalls, and oxidizing any remaining protective film.
US11670512B2
A method is disclosed for delectively depositing a material on a substrate wherein the substrate has at least two different surfaces wherein one surface is passivated thereby allowing selective deposition on the non-passivated surface. In particular, disclosed is a method for preparing a surface of a substrate for selective film deposition, wherein the surface of the substrate comprises at least a first surface comprising SiO2 and an initial concentration of surface hydroxyl groups and a second surface comprising SiH, the method comprising the steps of: contacting the substrate with a wet chemical composition to obtain a treated substrate comprising an increased concentration of surface hydroxyl groups relative to the initial concentration of surface hydroxyl groups; and heating the treated substrate to a temperature of from about 200° C. to about 600° C., wherein the heating step converts at least a portion of the surface hydroxyl groups on the first surface to surface siloxane groups on the surface of the substrate.
US11670509B2
A template for imprint lithography can include a body. The body can include a base surface and have a recession extending from the base surface lying along a base plane, the recession including a main portion having a tapered sidewall. In a particular embodiment, the recession includes an intermediate portion having an intermediate sidewall. The intermediate sidewall is rounded or at least part of the intermediate sidewall lies at a different angle as compared to an average tapered angle of the main portion. In another aspect, a method of fabricating a semiconductor device can include forming a patterned resist layer having a tapered sidewall over a substrate having device layers; patterning the device layers using the patterned resist layer; and etching portions of at least some of device layers to expose lateral portions of the at least some device layers. The template is well suited for forming 3D memory arrays.
US11670504B2
A thin-film insulator comprises a first electrode over a substrate. A photo up-converting material is over the first electrode. A cured photo-imageable dielectric (PID) containing a high-k filler material is over the photo up-converting material, wherein the cured PID is less than 4 μm in thickness, and a second electrode is over the cured PID.
US11670495B2
A device includes a first surface, a second surface and a controller. The second surface is adjacent to the first surface. The first and the second surfaces define a first ion channel therebetween. The first ion channel extends along a first direction. The second surface includes a first plurality of electrodes including a first electrode and a second electrode spaced apart from the first electrode along a second direction lateral to the first direction. The first plurality of electrodes extends along the first direction. The first electrode is configured to receive a first voltage signal and generate at least a portion of a pseudopotential that inhibits ions in the first ion channel from approaching the second surface. The second plurality of electrodes is located between the first electrode and the second electrode and arranged along the first direction. The second plurality of electrodes are configured to receive a second voltage signal to generate a first traveling drive potential that travels along the first direction. The first traveling drive potential is configured to guide ions along the first ion channel. The device further includes a controller electrically coupled to the first and the second surface. The controller is configured to generate the first voltage signal and the second voltage signal.
US11670493B2
Apparatus for physical vapor deposition are provided herein. In some embodiments, a clamp for use in a physical vapor deposition (PVD) chamber includes a clamp body and an outwardly extending shelf that extends from the clamp body, wherein the outwardly extending shelf includes a clamping surface configured to clamp an isolator ring to a chamber body of the PVD chamber, wherein a height of the outwardly extending shelf is about 15 percent to about 40 percent of a height of the clamp body and wherein the clamp body includes a central opening configured to retain a fastener therein.
US11670489B2
Embodiments disclosed herein include a source for a processing tool. In an embodiment, the source comprises a dielectric plate having a first surface and a second surface opposite from the first surface, and a cavity into the first surface of the dielectric plate. In an embodiment, the cavity comprises a third surface that is between the first surface and the second surface. In an embodiment, the source further comprises a dielectric resonator extending away from the third surface.
US11670480B2
In one embodiment, a method includes receiving measured linescan information describing a pattern structure of a feature, applying the received measured linescan information to an inverse linescan model that relates measured linescan information to feature geometry information, and identifying, based at least in part on the applying the received measured linescan model to the inverse linescan model, feature geometry information that describes a feature that would produce a linescan corresponding to the received measured linescan information. The method also includes determining, at least in part using the inverse linescan model, feature edge positions of the identified feature, analyzing the feature edge positions to determine errors in the manufacture of the pattern structure, and controlling a lithography tool based on the analysis of the feature edge positions.
US11670464B2
A remote control for a wireless load control system, the remote control comprising: a housing having a front surface and an outer periphery defined by a length and a width; an actuator provided at the front surface of the housing; a wireless transmitter contained within the housing; and a controller contained within the housing and coupled to the wireless transmitter for causing transmission of a wireless signal in response to an actuation of the actuator, the wireless transmitter and the controller adapted to be powered by a battery contained within the housing; wherein the length and the width of the housing are slightly smaller than a length and a width of a standard opening of a faceplate, respectively, such that the outer periphery of the housing is adapted to be received within the standard opening of the faceplate when the housing and the faceplate are mounted to a vertical surface.
