US08798369B2
An apparatus and method for estimating the number of objects in an input image are disclosed. The apparatus includes: a learning unit that calculates counted values of a linear regression function by learning an arbitrary image; a separation unit that separates a foreground region and a background region of the input image; an extraction unit that searches for features that require an amount of calculation that is below a particular threshold from features having high correlation with each other feature and extracts the features from the separated foreground region; and an estimation unit that estimates the number of objects in the foreground region as a dependent variable by allocating the counted values of the linear regression function that are calculated by the learning unit and the features that are extracted by the extraction unit as independent variables of a linear regression function.
US08798364B2
An image processing apparatus and a method thereof are provided. A plurality of target blur radii are obtained by calculating blur radiuses corresponding to the out of focus transform function between a deblurred datum color channel image and the other color channel images. A plurality of deblurred color channel images are obtained by respectively performing deblurring operations on the original channel images according to the target blur radii that are corresponding to the original channel images. The deblurred datum color channel image and the deblurred color channel images are combined to obtain a blur calibrated image. Accordingly, the image out of focus problem induced by dispersion can be solved.
US08798356B2
An apparatus and method for encoding and decoding a multi-view image including a stereoscopic image are provided. The apparatus for encoding a multi-view image includes a base layer encoding unit that encodes a base layer image to generate a base layer bit stream, a view-based conversion unit that performs view-based conversion of the base layer image to generate a view-converted base layer image, a subtractor obtaining a residual between a enhancement layer image and the view-converted base layer image, and an enhancement layer encoding unit that encodes the obtained residual to generate an enhancement layer bit stream.
US08798351B2
A cine imaging filter and method of use that includes a denoising image-filter based on the Karhunen-Loeve transform along the temporal direction to take advantage of the high temporal correlation among images. The cine imaging filter may further include the application of a simple formula describing the quantitative noise reduction capabilities of the KLT filter as a function of eigenimage cutoff. Additionally, the filter may validate its accuracy in numerical simulation and in in-vivo real time cine images. Furthermore, exemplary embodiments of the cine imaging filter may employ a technique to automatically select the optimal eigenimage cutoff to maximize noise reduction with minimal effect on image information.
US08798347B2
A method for compensating respiratory motion in coronary fluoroscopic images includes finding a set of transformation parameters of a parametric motion model that maximize an objective function that is a weighted normalized cross correlation function of a reference image acquired at a first time that is warped by the parametric motion model and a first incoming image acquired at a second time subsequent to the first time. The weights are calculated as a ratio of a covariance of the gradients of the reference image and the gradients of the first incoming image with respect to a root of a product of a variance of the gradients of the reference image and the variance of the gradients of the first incoming image. The parametric motion model transforms the reference image to match the first incoming image.
US08798344B2
An image processing apparatus includes: a candidate point extraction unit which extracts, from an image, candidate points which are candidates for points constituting a circular region that represents a bubble; and a circular-region detecting unit which detects a circular region in the image on the basis of information belonging to the candidate points.
US08798343B2
A system for displaying lung ventilation information, the system comprising an input (12) and a processing unit (15). The input being provided for receiving multiple CT images (71) of a lung, each CT image (71) corresponding to one phase of at least two different phases in a respiratory cycle. The processing unit (15) being configured to compare CT images (71) corresponding to different phases in the respiratory cycle for determining a deformation vector field for each phase, to generate for each phase a ventilation image (72) based on the corresponding deformation vector field, to spatially align the ventilation images (72), and to generate for at least one common position (62) in each one of the aligned ventilation images (72), a function (81) of a time course of a ventilation value for said common position (62), each ventilation value in the function (81) being based on the deformation vector fields corresponding to the aligned ventilation images (73).
US08798332B2
Apparatus, systems and methods for facilitating iris-scanning contact lenses and/or biometric identification employing iris scanning contact lenses are provided. In one implementation, the contact lens can include: a transparent substrate formed to cover at least a portion of an iris of an eye; and a circuit. The circuit can include: one or more light sensors disposed on or within the transparent substrate and that detects light filtered through the iris and incident on the one or more light sensors; readout circuitry, operably coupled to the one or more light sensors, that outputs information indicative of the light filtered through the iris and incident on the one or more light sensors; and a power component that supplies power to the readout circuitry. In various implementations, the contact lens can be employed in systems and/or methods associated with authentication and identification.
US08798330B2
A method of biometric recognition is provided. Multiple images of the face or other non-iris image and iris of an individual are acquired. If the multiple images are determined to form an expected sequence of images, the face and iris images are associated together. A single camera preferably acquires both the iris and face images by changing at least one of the zoom, position, or dynamic range of the camera. The dynamic range can be adjusted by at least one of adjusting the gain settings of the camera, adjusting the exposure time, and/or adjusting the illuminator brightness. The expected sequence determination can be made by determining if the accumulated motion vectors of the multiple images is consistent with an expected set of motion vectors and/or ensuring that the iris remains in the field of view of all of the multiple images.
US08798329B2
An authentication apparatus includes: a vein data extracting unit that extracts vein data representing veins, from an image including the veins existing in a finger; an extracting unit that extracts position data representing the position which the contour of the finger has at an intermediate stage of extracting the vein data; and a determining unit that determines a collation candidate to be collated with the vein data, from the similarity between the position data and data associated with vein data to be registered.
US08798327B2
A method and system for people flow statistics is disclosed in the invention, wherein said method comprises: multi-types of classifiers connected in parallel are used to perform the human head detection in the current image, the respective human heads in the current image are determined; the respective determined human heads are tracked to form the human head target movement tracks; and the people flow is counted at the direction of the human head target movement track. It can be seen, a plurality of classifiers connected in parallel are used in the invention, multi-types of human head targets, such as dark colored hair, light colored hair and caps of various colors, and the like, can be detected simultaneously.
US08798324B2
A machine may be configured as a vehicle identification machine to identify a model of a vehicle based on an image that depicts a dashboard of the vehicle. As configured, the machine may receive an image of the dashboard, where the image depicts a layout of instrumentation within the dashboard. The machine may identify the layout of instrumentation by processing the image. For example, the machine may process the image by determining a position of an instrument within the layout of instrumentation, determining an outline of instrument, or both. The machine may access a data record that correlates a model of the vehicle with the identified layout of instrumentation and, based on the data record, identify the model of the vehicle. The machine may then provide a notification that references the vehicle, references the identified model of the vehicle, or references both.
US08798323B2
Embodiments of the invention are directed to obtaining information based on directional orientation of a mobile imaging device, such as a camera phone. Visual information is gathered by the camera and used to determine a directional orientation of the camera, to search for content based on the direction, to manipulate 3D virtual images of a surrounding area, and to otherwise use the directional information. Direction and motion can be determined by analyzing a sequence of images. Distance from a current location, inputted search parameters, and other criteria can be used to expand or filter content that is tagged with such criteria. Search results with distance indicators can be overlaid on a map or a camera feed. Various content can be displayed for a current direction, or desired content, such as a business location, can be displayed only when the camera is oriented toward the desired content.
US08798319B2
Verifying surveying instrument's external orientation during a measurement process, comprising directing the imaging means onto a reference object and detecting a first photographing direction of the imaging means, taking a first image of the reference object in the first photographing direction, memorizing the first image and the first photographing direction as being indicative of the surveying instrument's external orientation, re-directing the imaging means onto the reference object and detecting a second photographing direction of the imaging means, taking a second image of the reference object in the second photographing direction, and comparing a first with a second imaged position of the reference object in the first respectively the second image by image processing as well as the first with the second photographing direction and verifying the surveying instrument's external orientation based on disparities between the first and the second imaged position and/or between the first and the second photographing direction.
US08798318B2
Systems and methods for video episode viewing and mining comprise: receiving video data comprising a plurality of frames representing images of one or more objects within a physical area; identifying a plurality of events within the video data, wherein an event represents a movement of an object of interest from a first location in a grid associated with the physical area to a second location in the grid; generating a plurality of event data records reflecting the plurality of events; and determining one or more frequent episodes from the plurality of event data records, wherein an episode comprises a series of events associated with a particular object of interest.
US08798317B2
A print format adjustment system includes a receiving module, a visual condition determination module, a print format determination module, and a print control module. The receiving module receives content for printing in a first print format. The visual condition determination module establishes the sharpness of vision of a viewer in front of a display, at a predetermined view distance. The print format determination module determines a second print format based on both the first print format and the visual condition of the viewer. The print control module prints the content in the second print format.
US08798310B2
The present disclosure relates to a diaphragm that may be used with a mechanical-to-acoustical transducer. The diaphragm may include a layer of optically clear film, a damping layer and another layer of optically clear film. The damping layer may be an adhesive. The diaphragm may also comprise two optically clear films, optionally including a damping layer, wherein the films indicate a desired coefficient of linear thermal expansion in one or both of the machine and transverse directions.
US08798306B2
Disclosed is a device and a casing therefor. The device comprises a casing having a back side and a casing opening in the back side; a speaker mounted inside the casing and in communication with the casing opening; and a cover shaped to mate with and to cover the casing opening, the cover having a first nub and a second nub and a speaker opening providing an air channel for the speaker. In the device, the first and the second nubs are located about the speaker opening in a symmetrical pattern; and when the communication device is placed on a flat surface with the side of the casing facing the flat surface, the first and second nubs cause the back side of the casing to be canted from the flat surface to expose the speaker opening to ambient air.
US08798304B2
A valve for a personal auditory system is described. The auditory system is capable of converting between an acoustic signal and an electrical signal. The auditory system has an acoustic pathway through which an acoustic signal may travel between a first point exterior to the auditory system and a second point interior to the auditory system. The valve includes a free floating electrode and a second electrode adjacent to free floating electrode. An electric signal that is generated by the second electrode moves the free floating electrode to substantially open or close the acoustic pathway.
US08798287B2
A vehicle sound simulation system and sound simulation methodologies are provided. The vehicle sound simulation system includes a sound playback device utilized to produce sound signals. As a vehicle is operated, the vehicle sound simulation system approximates an engine state and generates sounds corresponding to the engine state. The vehicle sound simulation system generates sounds in accordance with a vehicle sound generation routine that utilizes a number of inputted parameters to vary the sounds generated through the sound playback device.
US08798286B2
A method includes receiving input from a remote control device at a set-top box device. The input identifies media content that includes audio content and video content. The input also indicates that the audio content is to be output via an audio output device coupled to the set-top box device without sending the video output from the set-top box device to an external display device coupled to the set-top box device. The method includes determining whether the media content is stored at a local memory device of the set-top box device. When the media content is stored at the local memory device, the method includes retrieving the media content from the local memory, sending a first audio signal corresponding to the audio content of the media content to the audio output device and blocking output of the video content to the external display device.
US08798277B1
Embodiments of the present invention provide systems, methods, and computer-readable media for presenting a mute indicator to a caller when the caller is attempting to provide input to a call that has been muted. In particular, a determination is made that a mute function is engaged during a call. An area surrounding a calling system, such as a phone, is then monitored by a monitoring system to determine whether a caller is attempting to provide input to the call. A determination is then made that a caller is attempting to provide input to the call. The determination may be based on a caller providing a threshold volume of voice input within a threshold area of proximity near the calling system. A mute indicator is then presented to the caller to notify the caller that the call has a mute function engaged.
US08798273B2
A key management protocol (such as KMIP) is extended to provide an extended credential type to pass information from clients to the server to enable the server to deduce pre-provisioned cryptographic materials for the individual clients. Preferably, KMIP client code communicates device information to a key management server in a value in the headers of KMIP requests that flow to the server. In this manner, KMIP requests are associated with pre-provisioned cryptographic materials for particular devices or device groups.
US08798271B2
A wireless communication circuit includes a receiver to receive at least one of a beacon frame and a probe response frame from a first wireless communication apparatus belonging to a first communication group, at least one of the beacon frame and the probe response frame including first security information indicating a first encryption method. The circuit includes a transmitter to transmit an association request frame to the first wireless communication apparatus, the association request frame including second security information indicating a second encryption method which is supported by the wireless communication circuit, after a determination that the second encryption method overlaps with the first encryption method. The transmitter declines to associate with the first wireless communication apparatus if the first encryption method fails to overlap with the second encryption method. The transmitter transmits a data frame including a frame body after a reception of an association response frame.
US08798268B2
A system and methods for permitting open access to data objects and for securing data within the data objects is disclosed. According to one embodiment of the present invention, a method for securing a data object is disclosed. According to one embodiment of the present invention, a method for securing a data object is disclosed. The method includes the steps of (1) providing a data object comprising digital data and file format information; (2) embedding independent data into a data object; and (3) scrambling the data object to degrade the data object to a predetermined signal quality level. The steps of embedding and scrambling may be performed until a predetermined condition is met. The method may also include the steps of descrambling the data object to upgrade the data object to a predetermined signal quality level, and decoding the embedded independent data.
US08798265B2
A handheld communications device and method for transmitting an encryption key are provided. The method comprises: generating an encryption key via the data processor, the encryption key comprising a bit sequence; and varying an output of the display device over a period of time to transmit the encryption key from the handheld communications device by varying at least one of a sequence at least one of colour rendered on the display device or a sequence of brightness levels output by the display device.
US08798261B2
For protecting data stored in an electronic device, an inner security key encrypting and decrypting data stored in the electronic device is encrypted with an outer security key. The outer security key is stored on an external memory to be coupled to the electronic device. The outer security key is generated from at least a unique identifier of the electronic device, a unique identifier of the external memory device, and a personal identification number. Additional constituents of the outer security key may be provided, e.g., an identifier of an auxiliary device to be coupled to the electronic device.
US08798259B2
A communication device and method for managing communication records by using priorities of the communication records so that a user can easily find a desired communication record are provided. In the method, the device receives a priority input for a selected one of the communication records, saves the received priority input as a priority of the selected communication record, and displays a list of the communication records arranged according to the priorities thereof.
US08798252B2
The architecture facilitates the association of resources (e.g., hardware software) with a meeting location such as a conference room or conference space. Additionally, the room and resources can be associated with a realtime conference or meeting at the meeting location. Still further, the resources can be automatically joined to the meeting being held in the room, for both the organizer of the meeting and the remote participants of the meeting. The resources are network addressable and register to a communications infrastructure for online availability. The architecture automatically joins the conference room resources to any conference or call that is being held in the locale (e.g., room) of the conference, and which the user has joined using a realtime conferencing application. The resources distributed across multiple meeting locations can be utilized for a single session, as well.
US08798251B2
Methods and systems for establishing a computer-enhanced conference call are disclosed. Methods and systems consistent with the present invention establish a computer-enhanced conference call between a plurality of users, including an initiating user. A service center detects a computer-enhanced conference call event that was previously configured by the initiating user. Conference users associated with the computer-enhanced conference call event are thereafter contacted. After at least one response from the conference users is received, a conference call between the initiating user and the conference users is established based on the at least one received response. The service center also establishes a collaboration between the initiating user and conference users that are authorized to participate in the collaboration.
US08798249B2
Embodiments are configured to provide reminders associated with communications and other events. In an embodiment, components of a communication system can operate to generate, maintain, and implement reminders associated with communications and other events. A reminder can be automatically generated and scheduled for one or more users of the communication system when a user is unavailable or unable to take a call. Reminders can be generated to include information which can be used to establish a communication event for a subsequent communication associated with each reminder.
US08798244B2
The disclosed and claimed concept describes a handheld electronic device that has the capability to process electronic messages that originate from an electronic mail service using the features that are supported by the electronic mail service.
US08798240B2
An interactive voice response process that permits an intelligent interactive voice system to communicate with a caller includes receiving a call and connecting the caller with the system. The process also includes identifying the caller, determining if the caller is a first time caller or a repeat caller, and interactively communicating with the caller in accordance with an interactive script. For each first time caller, the process establishes a personal profile of the caller from information gathered from the caller. The process then develops a predictive personalized interactive communication dialog for future calls from the caller based on information gathered from the caller during the interactive communication and stored in the caller's personal profile.
US08798230B2
Disclosed are a radiation imaging apparatus, a computed tomography apparatus, and a radiation imaging method using the same. The radiation imaging apparatus includes a radiation emitter configured to emit radiation to an object while moving around the object, a radiation detector configured to detect radiation emitted from the radiation emitter and to change the detected radiation into an electric signal to thereby store the electric signal, and an irradiation controller to control the radiation emitter such that radiation is emitted to the object in at least one position or zone around the object and such that the radiation emitter stops emission of radiation to the object in a position or zone corresponding to the at least one position or zone.
US08798227B2
According to one embodiment, it is an subject to reduce the occasion that a region of interest falls outside an image due to the influence of respiratory motion or pulsation. A medical image processing apparatus causes an slice image generation unit to generate a series of slice images from a series of volume data files associated with a three-dimensional region of an subject, and causes a slice position determination unit to determine each of a plurality of slices respectively corresponding to the slice images based on the position of a specific region included in the plurality of volume data files.
US08798225B2
A radiation exposure reduction method includes the steps of: injecting iron into a coolant which flows from the reactor cooling system to the reactor core in a nuclear power plant; and ferritizing and fixing radionuclides or parent nuclides thereof, which are contained in the coolant, on the surface of a reactor core structure, wherein an iron citrate which is soluble organic iron, or iron oxalate or iron fumarate which has a particle diameter of 3 μm or less, is used as the iron to be injected into the coolant.
US08798224B2
A system for storing and/or transporting high level radioactive waste, and a method of manufacturing the same. In one aspect, the invention is a ventilated vertical overpack (“VVO”) having specially designed inlet ducts that refract radiation back into the storage cavity. A clear line-of-sight does not exist through the inlet ducts and, thus, the canister can be supported on the floor of the VVO. Also disclosed is a method of manufacturing a variable height VVO that falls within a regulatory license previously obtained for a shorter and taller version of the VVO.
US08798216B2
A circuit for down-converting an RF signal to a baseband signal includes a trans-admittance amplifier adapted to receive the RF signal and generate in response a pair of differential current signals. The circuit further includes a trans-impedance amplifier having at least four mixers and at least four linear amplifiers. The four mixers frequency down-convert the pair of differential current signals to generate four pairs of differential baseband current signals, wherein each pair of the differential baseband current signals has a different phase and is associated with each of the linear amplifiers. Additionally, the circuit includes a summing block that generates an in-phase signal using a first weighted sum of the four different baseband current signals and a quadrature signal using a second weighted sum of the four different baseband current signals. The circuit further includes an analog-to-digital converter for converting the in-phase and quadrature signals to respective digital representations.
US08798208B2
Disclosed is an apparatus and method for detecting a code. The code detecting apparatus may include a detector to detect symbol synchronous timing information associated with a PSS code from a first signal received during a predetermined first period, a compensator to extract and buffer the PSS code and the SSS code based on the symbol synchronous timing information detected from a second signal received during a predetermined second period, and compensate for a frequency offset with respect to the buffered PSS code, and a processor to re-detect the symbol synchronous timing information based on the PSS code in which the frequency offset is compensated for, and extract the buffered SSS code using the re-detected symbol synchronous timing information.
US08798203B2
Disclosed herein is a signal processing apparatus including: a frequency multiplier configured to carry out an N-times frequency multiplication process on a modulated signal obtained as a result of an N phase shift keying modulation process in order to generate a multiplied frequency signal; and an oscillator configured to oscillate the multiplied frequency signal as an injected signal in order to generate a signal obtained by carrying out a by-N frequency division process on the multiplied frequency signal to serve as a reproduced carrier which is a carrier reproduced from the modulated signal.
US08798202B2
A wireless transmitter includes a stream parser for generating a plurality of spatial streams from a digital signal and a space time block coder (STBC) for mapping each of the spatial streams to a plurality of space-time streams that each include data and a preamble for estimating a channel transfer function. The transmitter also includes a spatial mapper for spatially expanding each of the space-time streams by applying a spatial expansion matrix to data and to first training symbols used in the preamble to probe a channel experienced by the data and by applying an extension matrix to second training symbols used in the preamble to probe at least one additional dimension of the channel to enable use of beamforming to achieve range extension The spatial expansion matrix and the extension matrix form an overall matrix that has at least two orthogonal columns with different norms. The wireless transmitter also includes an analog front end for modulating the spatially expanded space-time streams onto a wireless carrier.
US08798184B2
Transmitting beamforming can steer a transmitting signal to reduce the interference between spaces of a MIMO system and achieves constructive combination at the receiver. One method of steering matrix calculation includes using singular value decomposition (SVD). Notably, the singular values of SVD, which represent the stream strengths in a MIMO system, are in descending order. In equal modulation, signal strength degradation makes the receive EVM of the latest stream poor and increases the probability of packet error. MMSE can be used to weight the steering vectors of the steering matrix calculated in SVD. This weighting of the singular values can balance the SNR of the streams, thereby improving packet error rate.
US08798181B1
A method and system uses a constrained set of indexed samples to identify a next generation population of samples that exhibits a more desirable signal characteristic. The invention generates an intermediate set of indexed samples which are subjected to a fitness function and next generation calculations to produce next generation indexes for the next population of samples. The next generation indexes population of samples is further constrained over initial indexes for generating a more desirable signal characteristic. In an example, the PAPR for all samples of the population are reduced.
US08798180B1
Systems and methods are provided for transmitting time domain signals over a network. A prime factor inverse Fourier transform module is configured to receive a frequency domain symbol comprising n samples and convert the frequency domain symbol into a time domain signal. The prime factor inverse Fourier transform module includes a prime factor module that is configured to perform an inverse Fourier transform on the frequency domain symbol to reduce the number of samples of the frequency domain symbol by a factor of p, where p is a prime number, and where p is a factor of n. The prime factor inverse Fourier transform module further includes a reduced inverse Fourier transform module that is configured to convert the reduced number of samples to a time domain signal for transmission over the network.
US08798175B2
One embodiment described herein includes a method for transmitting a signal. The method includes generating a Manchester encoded data stream and combining the Manchester encoded data stream with an amplified clock signal to produce an amplitude modulated signal having a zero crossing at each edge of the amplified clock signal. The amplitude modulated signal can then be sent over a communication medium.
US08798153B2
A method of decoding videos comprises the steps of performing, in respect of a decoding objective area of decoding objective frame, a motion search by using images of plural frames finished with decoding and deciding, on the basis of the result of the motion search, whether an image of the decoding objective area is to be generated through an interpolation process or a decoded image is to be generated through motion compensation using data included in an encoding stream.
US08798152B2
Embodiments of the invention generally provide a method and apparatus for fast motion estimation. One embodiment of a method for motion estimation includes classifying a macroblock of a source frame in accordance with an initial matching cost, an intermediate matching cost, and a final matching cost, where the intermediate matching cost is estimated based on a predicted motion vector for the source frame and the final matching cost is estimated based on a final motion vector for a correlated macroblock in a prior frame, performing motion estimation for the macroblock based upon the classifying, wherein an early termination is applied in accordance with a result of the classifying, and outputting a motion vector for the macroblock based on a result of the motion estimation.
US08798145B2
Methods for concealing Scalable Video Coding (SVC) decoding errors. Lost pictures in the target layer are replaced with up-sampled pictures from a lower layer, such as the base layer. In multiloop decoding applications, lost pictures in the target layer are replaced with corresponding up-sampled pictures from the lower layer. Subsequent target layer pictures in the same Group of Pictures (GOP) are either replaced with corresponding upsampled pictures from the lower layer, or they are decoded with up-sampled pictures from the lower layer used as reference pictures. For single-loop decoding, the bit stream of each layer is buffered, for each GOP, and inspected for errors. If an error is detected in the target layer, the pictures of the highest level layer without an error are decoded and up-sampled and used as the output pictures for the current GOP.
US08798144B2
A method for optimizing a video transmission, in a constrained environment using a video coder adapted for coding the video data to be transmitted, includes determining one or more compression parameters for the video coder considered to transmit the video data at a given throughput or for a given quality. The method defines and uses reference charts for the coder considered, and predicts for the part of the video sequence undergoing compression, using the reference charts, compression parameters to be used, such as the quantization interval, by selecting a chart for which the targeted range of throughput or of quality is the closest in distance to the part of the sequence to be compressed, while complying with a given margin, and updates with an iterative method the prediction step to converge on the best choice of parameterization. The iteration includes at least one compression step followed by a verification step, to compress the video data to be transmitted with the parameters.
US08798143B2
A plurality of bit streams are seamlessly spliced. Separate decoders decode each bit stream. A controller selects the decoded pictures according to a re-encoding range in the vicinity of a splicing point of the bit streams. Pictures presenting a reordering of the streams are excluded in the selection of the decoded pictures. An encoder re-encodes the pictures within the re-encoding range. When it is determined that crossover motion compensation exists between pictures of different streams, the controller changes the motion prediction direction of the problematic picture. The controller changes a motion prediction picture type of a picture which is improperly motion predicted with reference to another stream. A quantization characteristic or motion vectors for the new picture type are generated by the controller. The controller effects the encoding in accordance with a target amount of bits to prevent a breakdown of a buffer and a discontinuation of an amount of data occupancy thereof. A multiplexer multiplexes the original streams with the re-encoded stream to produce a seamless bit stream.
US08798142B2
In one embodiment, the method includes obtaining quantization information related to at least one of a first block and an adjacent second block, comparing the quantization information with a predefined constant value, and performing a filtering process based on the comparing step when both of the first block and the second block are intra-coded blocks according to obtained block type information. The filtering process includes calculating a value of at least one pixel in the first block based on pixel values of at least two pixels in the first block, and calculating a value of at least one pixel in the second block based on pixel values of at least two pixels in the second block. The at least two pixels in the first block and the at least two pixels in the second block are successive pixels across a block boundary between the first block and the second block.
US08798132B2
A video apparatus to combine a graphical user interface (GUI) with a frame rate conversion (FRC) video. The video apparatus combines a GUI with an area of a video in which a frame rate is converted. By performing a FRC, a moving image having increased quality is provided for a user, and minimizing artifacts from occurring around a boundary of a still image such as a GUI.
US08798121B2
A circuit includes a first wireless interface circuit that communicates packetized data to a first external device in accordance with a first wireless communication protocol. A second wireless interface circuit communicates packetized data to a second external device in accordance with a second wireless communication protocol. A plurality of signal lines communicate at least four lines of cooperation data between the first wireless interface circuit and the second wireless interface circuit, wherein the cooperation data relates to cooperate transceiving in a common frequency spectrum.
US08798118B2
Provided are a receiver for a real time locating system (RTLS) and a method of receiving a signal in the RTLS. The receiver includes a down converter converting a radio frequency (RF) signal into a base band signal, a matched filter filtering the converted signal using an optimal receiving filter in view of a signal-to-noise ratio (SNR) such as a shaping filter used for a transmitter, an adaptive transversal filter (ATF) estimating an interference signal with an output of the matched filter, and filtering the output to remove interference of a heterogeneous signal of the same frequency band, a de-spreader multiplying an output of the matched filter and a code according to DSSS modulation used for spreading when a tag signal is modulated, and performing chip-matched filtering to obtain a value of correlation energy, and a detector detecting original transmission data using the correlation energy value.
US08798117B1
Methods and apparatus for efficiently implementing a rake receiver which allows for rake receiver elements, e.g., fingers, to be dynamically assigned to antenna elements are described. In at least some embodiments multiple antennas are used. Rake elements are allocated to antennas in a dynamic manner with sets of weights also being assigned dynamically, e.g., based on channel estimates. Rake finger assignment to antenna's is made, in some embodiments, to maximize signal recovery taking into consideration the channel conditions detected by each antenna for the various delays that may be supported. Through the dynamic assignment of rake finger's to antenna's, a single rake finger may be coupled to different antennas at different times allowing for more efficient use as compared to systems where rake fingers are dedicated on a fixed basis to an individual antenna.
US08798111B2
Methods for improving the performance of type-II and type-I ICLs, particularly in the mid-IR wavelength range, are provided. The electron injector of a type-II or a type-I ICL can be heavily n-doped to increase the ratio of electrons to holes in the active quantum wells, thereby increasing the probability of radiative recombination in the active quantum wells and reducing the threshold current density Jth needed to achieve lasing. For both type-II and type-I ICLs, the doping should have a sheet density in the low-1012 range. In either the type-II or the type-I case, in some embodiments, heavy doping can be concentrated in the middle quantum wells of the electron injector, while in other embodiments, doping with silicon can be shifted towards the active quantum wells.
US08798110B2
A method of manufacturing an optical semiconductor device including: forming a mesa structure including a first conductivity type cladding layer, an active layer and a second conductivity type cladding layer in this order on a first conductivity type semiconductor substrate, an upper most surface of the mesa structure being constituted of an upper face of the second conductivity type cladding layer; growing a first burying layer burying both sides of the mesa structure at higher position than the active layer; forming an depressed face by etching both edges of the upper face of the second conductivity type cladding layer; and growing a second burying layer of the first conductivity type on the depressed face of the second conductivity type cladding layer and the first burying layer.
US08798108B2
An embodiment relates to a device for generating a short duration laser pulse, which comprises: means for generating a laser beam and for filtering same, arranged in such a way as to generate an input laser beam providing an input laser pulse; a transparent slide comprising a non-linear scattering material; the laser generation means being arranged so that the slide widens the spectrum of the input laser pulse by phase self-modulation in order to generate a wide-spectrum laser pulse; compression means adapted for compressing the wide-spectrum laser pulse in order to generate a short duration laser pulse; wherein the laser generation means are arranged so that the input beam is spatially uniform on the transparent slide and has a break integral B lower than three when the input beam passes through the transparent slide.
US08798107B2
A method and device are provided for generating bursts of sub-pulses, preferably in the picosecond range. Seed pulses are first generated, and then phase modulated to spread their spectral profile to several time-dependent spectral components. The phase modulated seed pulses are then spectrally filtered to remove spectral components and retain only selected ones, creating gaps in the amplitude profile of the seed pulses which therefore form bursts of sub-pulses. Various parameters such as the modulation amplitude, the modulation frequency, the spectral characteristics of the filters and the overall amplitude of the seed pulses may be controlled to provide a great versatility and adaptability.
US08798105B2
A compact, lightweight, laser target designator uses a TIR bounce geometry to place an end-pumped gain element functionally in the center of the resonator path, thereby allowing the resonator path to be terminated by a pair of crossed Porro prisms, so that the designator produces a high quality beam that is insensitive to alignment and temperature, and is low in manufacturing cost. Some embodiments fold the Porro legs of the resonator path back toward the gain element for compactness. Embodiments use a single gain element as both an oscillator gain element with TIR and as an output amplifier gain element without TIR. Various embodiments use block optical elements in a planar layout on a standard support medium such as aluminum to facilitate automated manufacturing.
US08798102B2
A device (100) for scheduling uplink transmission comprises a timing estimator (110) configured to estimate the timing with which data packets are being available for uplink transmission in a User Equipment, UE, on the user side, and an uplink scheduler (120) configured to perform uplink scheduling in accordance with the estimated timing. The device further comprises a detector (130) configured to detect lost time alignment of UE data packet availability and allocated resources for uplink transmission based on reception of a predefined UE response on the uplink data channel. The device also comprises a determiner (140) configured to determine, in response to lost time alignment, an updated estimate of the timing with which data packets are being available for uplink transmission in the UE based on information representative of an alignment interval within which data packets are being available for uplink transmission in the UE after detection of lost time alignment. The uplink scheduler (120) is configured to perform uplink scheduling in accordance with the updated estimate of the timing to re-establish time alignment of UE data packet availability and allocated resources for uplink transmission.
US08798097B2
A communication device may include a reference maximum segment size (“MSS”) value acquisition device, a data length acquisition device, and a transmission device. The reference MSS value acquisition device may acquire a reference MSS value from a first device by executing a transmission control protocol communication with the first device. The data length acquisition device may acquire a data length value comprised in a user datagram protocol (“UDP”) header of a frame received by executing a UDP communication with the first device. The transmission device may generate a transmission frame and may transmit the transmission frame to a second device when executing a UDP communication with the second device. The reference MSS value may be an MSS of the first device. A size of the transmission frame may be based on a specific value determined utilizing the reference MSS value of the first device or utilizing the data length value.
US08798088B1
Disclosed herein are methods and systems for managing usage of traffic-channel resources in an access network, which are preferably resources that are reserved during a traffic channel assignment (TCA) process. An exemplary method comprises (i) a base station determining a usage level of at least one traffic-channel resource in a coverage area of the access network; (ii) based at least in part on the determined usage level, updating one or more TCA parameters affecting expected usage of the traffic-channel resource resulting from the TCA process; and (iii) performing the TCA process according to the updated TCA parameters. Preferably the usage level is determined for Medium Access Control Identifiers (MAC_IDs). Further, the access-channel occupancy (ACO) may be determined and the base station may further base the updating of TCA parameters on the ACO. In an exemplary embodiment, the updated TCA parameters include the TCA count and/or the TCC wait timer.
US08798087B2
A group scheduling method, a method for selectively receiving information elements according to group scheduling, and a Mobile Station (MS) are provided. The group scheduling method schedules allocation of resources to a plurality of mobile stations by dividing the plurality of mobile stations into at least one group. The group scheduling method includes enabling an index element in a group index corresponding to a group to which a mobile station (MS) scheduled to transmit data belongs and placing a group allocation information element including the group index at the beginning of a MAP. In this method, group scheduling information is transmitted to MSs using a group allocation IE to prevent the MSs from reading unnecessary information transmitted every frame, thereby reducing power consumption of the MSs.
US08798085B2
Techniques are described herein that can be used to process inbound network protocol units. In some implementations, the techniques may process inbound DDP segments. In some implementations, a steering tag of an inbound network protocol unit may be used to access a context accessible to a network component. In some implementations, the context may include an array useful to determine whether all segments in a group have been received by the network component. In some implementations, the segments may be stored in a first buffer and transferred to a second buffer after all segments in a group have been received.
US08798084B2
A mesh communication network for use in, for example, process control plants includes a plurality of network devices transmitting and receiving data according to a network schedule defined as a set of concurrent overlapping superframes, and along a set of graphs defining communication paths between pairs of network devices. A network manager residing in or outside the communication network develops a routing scheme for the network by analyzing the topology of the network and defining a set of graphs for use in routing or transmitting data between various nodes of the network, each graph including one or more communication paths between pairs of network devices. Concurrently or consequently, the network manager defines the network schedule in view of at least transmission requirements, power availability, and signal quality at each network device. If desired, the network manager may begin to define the network schedule upon completing the definition of the graphs of the communication network, so that the network manager may define the network schedule in view both the defined graphs and the transmission, power, etc. parameters associated with each network device.
US08798079B2
The present invention provides a method for fast passing through services in a SDH device including: a protection switching module compresses first pass-through time slots between adjacent protection ports to a second pass-through time slot; when an action of pass-through is triggered, the protection switching module sending the second pass-through time slot to a time slot configuration module to parse, and the time slot configuration module sending a parsing result to a time slot register to perform a process of a time slot pass-through. The present invention provides an apparatus for fast passing through services in a SDH device, including a protection switching module, a time slot configuration module and a time slot register. With the method and apparatus in the present invention, the processing time for the pass-through configuration is reduced obviously, which benefits to fast completion of protection switching and achieves fast recovery of ring protection network services.
US08798077B2
An apparatus includes a destination edge device configured to receive a first validation packet according to a switch fabric validation protocol. The destination edge device is configured to validate multiple data paths through a distributed switch fabric from a source edge device to the destination edge device based on the first validation packet. The destination edge device is configured to send, in response to receiving the first validation packet, a second validation packet to a peripheral processing device. The destination edge device is also configured to send the second validation packet according to a validation protocol different from the first validation protocol.
US08798076B2
A method of transporting data with embedded clock including following steps is provided. In an initial stage, a first bit length and a second bit length are determined. Original data is received. The original data is packed with every N bits as a packet, where N is at least 4. It is analyzed whether a long-run length of long-run data with consecutive same bit data in the packet is greater than N/2. The packet is coded to embed clock/toggle information with the first bit length into the packet. The clock/toggle information determines whether the long-run data is toggled. An appearance frequency of the clock/toggle information is clock information. If the long-run length is not greater than N/2, the long-run data is not toggled. If the long-run length is greater than N/2, bit with the second bit length after an Lth bit of the long-run data is toggled.
US08798064B2
Embodiments relate to forwarding of packets in link aggregation environments. A method for forwarding a packet through an extended switch including a first port extender and a second port extender directly or indirectly communicatively coupled to respectively a first interface and a second interface of a controlling bridge includes, associating a first port extender interface of the first port extender with a global namespace or an interface-specific namespace. The method further includes receiving a packet through the first port extender interface, marking the received packet with an indication of the namespace configuration of the first port extender interface, processing the marked packet in the controlling bridge based at least in part upon the indication, and transmitting the processed packet out of the controlling bridge.
US08798063B2
An apparatus includes a first processing unit to judge, whether the route information storing unit stores a second next destination address; a second processing unit to judge whether a received packet includes an message authentication code, in the case where the route-information storing unit stores the second next destination address; a third processing unit to judge whether the key-information storing unit stores a second shared key, which is a first shared key shared between the information processing apparatus, in the case where the received packet does not include the message authentication code for the second next destination address; a third packet generating unit to generate a third packet, which includes a next destination and information indicating that the generation of an message authentication code is impossible, in the case where the key information storing unit does not store the second shared key.
US08798058B2
In one embodiment, an apparatus may include a first interface configured to be communicatively coupled, via a network, to a second interface and a fiber channel services module. The first interface may be configured to receive a fiber channel service from the fiber channel services module, establish communication with the second interface, and communicate a fiber-channel-over-Ethernet (FCoE) frame to the second interface, via a forwarder that forwards the FCoE frame without employing a fiber channel switching element. Other embodiments are described and claimed.
US08798054B2
The invention implements an IP network system capable of causing a packet to reach a destination with reliability even if a trouble occurs to any of routers. The IP network system wherein packet communication is executed between respective hosts through the intermediary of a ring network comprised of at least a plurality of repeaters, the respective repeaters comprising an arithmetic and control unit for transferring a packet to the host at a transmission destination via a clockwise route, and a counterclockwise route, in the ring network, respectively, on the basis of transfer direction information contained in a tunneling packet generated on the basis of a packet transmitted from the host at a transmission source, as one of the respective hosts, to the host at the transmission destination, and subjected to multicast transmission to a multicast address where the host at the transmission destination belongs.
US08798043B2
A method of routing traffic in a switch includes forming an optimized routing table specifying for each switch ingress port an exit port to be utilized to reach a specified destination domain. The optimized routing table is formed in accordance with load distribution, oversubscription, and fragmentation criteria. The optimized routing table is distributed to a set of ingress ports of the switch. Traffic is processed at the set of ingress ports in accordance with the optimized routing table.
US08798038B2
A method for generating headers in packetized protocols for a flexible routing network for a Network on a Chip (NoC) architecture includes generating packets based on transmission traffic received from an initiator or a target connected to a routing network that connects disparate initiators and targets. Logic to generate the packets is in an interface located between the initiator or the target and the routing network. A header portion of a packet is variable in length and includes a header payload and header control information. Each of the header portion and the body portion includes one or more standard sized transmission units. The size of the transmission units and width of the header payload are determined by logic included in the interface. The width of the header payload is determined based on orthogonal groups with each of the orthogonal groups being associated with targets sharing an initiator thread.
US08798037B2
An apparatus and method are provided for proving the recording service in an Internet Protocol (IP) Multimedia Subsystem (IMS). The apparatus includes a communication unit for receiving a recording request from a calling portable terminal or a called portable terminal, and a recording service manager unit coupled to the communication unit for setting a path of bearer traffic for recording a conversation between the calling portable terminal and the called portable terminal.
US08798029B2
A method is provided for reducing the search space of an acquiring ultra wideband (UWB) device seeking to join an UWB communication system, such as a Multi-band orthogonal frequency divisional multiplexing (OFDM) UWB system, by providing wireless network information, such as the hopping pattern or Time-Frequency Code (TFC), timing and frequency information to the acquiring UWB device. The wireless network information is provided using a short range wireless module such as Bluetooth that may coexist with a UWB device. For example, an assisting UWB device, via a short range Bluetooth device module, may convey initial synchronization information, to the acquiring UWB device that also may have a coexisting UWB module. By knowing the TFC, timing and frequency information the acquiring UWB device may know the approximate beginning of the superframes of the UWB devices in the UWB communication system which may help reduce power consumption and probability of false alarm.
US08798016B2
The present invention relates to a node for deployment on a peer to peer network. The node is programmed for monitoring the network to receive communication messages therefrom and to forward the communication messages, optionally changing the communications radius parameters to an optimal or near optimal value. The node can forward messages from one network to another or from one network to the same network. The invention also provides a method for monitoring communication messages for selected objects by nodes on a peer to peer network. The method includes interposing the node on the network. The node has at least one stored object corresponding to a communication message object stored the node; and monitors the network to detect communication messages matching at least one of the stored objects and decides whether or not to forward or change communication message radius parameters based on some defined programming or configuration.
US08798015B2
Due to NACK-to-ACK misinterpretations in base stations, packets are lost, and there may be gaps in a re-ordering buffer of a base station. According to the present invention, when the receiver decodes—possibly after some retransmissions—a first data packet without an error, which first data packet is sent along with an indicator indicating that the first data packet is a new data packet, after the receiver has sent a negative confirmation message (NACK) with respect to a second data packet, the receiver sends a Revert (REV) message to the transmitter. The REV message informs the base station that the first data packet was decoded error-free, and that the second data packet is still missing on the receiving side so that the base station may re-send this second data packet.
US08798014B2
Disclosed are a data transmission method and device in a carrier aggregation system, used for realizing the data transmission of UE which does not support uplink and downlink transmission simultaneously in a carrier aggregation system which uses different TDD uplink and downlink configurations. The data transmission method in a carrier aggregation system provided in the present application includes: an eNB performing data transmission with specific user equipment (UE) according to the time division duplex (TDD) uplink and downlink sub-frame configuration employed by a specific component carrier in a carrier aggregation system by means of a component carrier in the carrier aggregation system, wherein said specific UE is TDDUE which does not support simultaneously performing uplink data transmission and downlink data transmission in an identical sub-frame.
US08798012B2
The present invention relates to a method and arrangement for switching between different modes in a communications network. The network comprises a number of transmit and a number of receive antennas, said modes comprising a single user mode and a multiple user mode. The method including the steps of: transmitting reference signals or predetermined sequences corresponding to both said modes comprising respective weighting matrices for said modes during a preparation phase, which comprises of one or more transmission time intervals (TTI), transmitting on a common channel, signalling information indicating start and duration of said preparation phase to all receiving equipments in a reception area.
US08798006B2
In some embodiments, a system and method for substantially real-time comparison of quality of interfaces by mobile devices over heterogeneous networks is disclosed. The method can be performed using a dynamic and rapid comparison by distributed hosts, using a minimal number of injected network packets, using minimal path quality metrics, which path quality metrics are independent of how a Qol is measured, and in a manner suitable for both wireline and wireless networks.
US08798001B2
A system and method for routing messages in a communication network is disclosed. The system include a plurality of nodes for receiving a packet for delivery to an intended recipient wherein the system is adapted to determine if the intended recipient is connected to a first selected node within the plurality of nodes; and if the recipient is connected to the first selected node, deliver the packet; and if the recipient is determined not to be connected to the first selected node within the plurality of nodes, the system is further adapted to determine which node from the plurality of nodes the intended recipient is connected and forward the packet to the node to which the intended recipient is connected.
US08798000B2
A technique to manage wireless wide area network bandwidth constraints in a communication network includes; prioritizing client activities in a serving access point; detecting that wired domain access is inactive while wireless wide area domain access is active; and utilizing an available bandwidth of the wireless aide area domain access for the highest priority client activities. The lower priority client activities can be address in various different ways including transferring to other available wired access.
US08797994B2
A frequency offset estimation unit estimates a frequency offset by combining information on a maximum window having a maximum peak power obtained from a received PRACH (Physical Random Access Channel) signal and a sign of a phase of a correlation value between channel estimation values obtained from a received PUSCH (Physical Uplink Shared Channel) signal.
US08797988B2
Apparatus, methods, and program products are presented that perform the following: allocating a set of sounding reference signal resources in a sounding reference signal resource space to a plurality of user equipment using a portioning scheme, and signaling indications of the allocated set of sounding reference signal resources to the plurality of user equipment. The portioning scheme may be a load balancing, complete partitioning, or hybrid scheme. The selection of a portioning scheme may be based on load.
US08797987B2
Embodiments of the present disclosure describe device, methods, computer-readable media and system configurations for establishing a reentry procedure for a machine-to-machine (“M2M”) device to reenter a wireless communication network based on traffic pattern characteristics or mobility characteristics associated with the M2M device. In various embodiments, a wireless communication device may include a processor, a wireless communication interface, memory coupled to the processor, and a control module. The control module may be operated by the processor and configured to establish a reentry procedure for a machine-to-machine (“M2M”) device to reenter a wireless communication network based on traffic pattern characteristics or mobility characteristics associated with the M2M device. Other embodiments may be described and/or claimed.
US08797978B2
A method for sending and detecting downlink control information is provided. A base station carries the downlink control information in a physical downlink control channel, and sends said physical downlink control channel through component carriers. Said base station bears first type downlink control information on an anchor component carrier, and bears third type downlink control information on a prime component carrier, wherein said first type downlink control information bears one or more types of uplink scheduling information, downlink scheduling information and uplink power control information of its component carrier, said third type downlink control information bears indication information of the second type downlink control information which bears the uplink scheduling information and/or the downlink scheduling information of one or more component carriers. A terminal detects the first type downlink control information on the anchor component carries and detects the third type downlink control information on the prime component carrier.
US08797977B2
When a base station apparatus and a mobile station apparatus communicate with each other using a wider frequency band consists of multiple carrier components, efficient communication is achieved without increasing control information (control signal) notified from the base station apparatus to the mobile station apparatus. The base station apparatus and the mobile station apparatus communicate with each other such that each of multiple uplink carrier components corresponds to each of multiple downlink carrier components or multiple downlink carrier component groups including multiple downlink carrier components.
US08797974B2
The present invention relates to a wireless communication system and a terminal providing a wireless communication service and to a method by which a base station and a terminal transmit and receive data in an evolved universal mobile telecommunications system evolved from universal mobile telecommunications system or a long term evolution system, and more particularly, to a method of controlling a monitoring operation of a physical downlink channel during a radio resource allocation procedure such that the radio resource allocation procedure can be performed with a minimum power usage by the terminal.
US08797972B2
A method for retransmitting packets in accordance with decoding failure or reliability is disclosed. A method for retransmitting packets from a transmitting side in accordance with information of a receiving side comprises changing an order of packet symbols mapped with subcarriers, if retransmission information representing decoding success or reliability for a specific codeword is received from the receiving side mapping the packet symbols with the subcarriers in accordance with the changed order; and transmitting a codeword generated in accordance with the mapped result to the receiving side. Thus, it is possible to improve packet decoding success probability of the receiving side during initial transmission or retransmission by controlling a type of transmission packets in accordance with feedback information of the receiving side.
US08797970B2
A method and apparatus for antenna switching, grouping, and channel assignments in wireless communication systems. The invention allows multiuser diversity to be exploited with simple antenna operations, therefore increasing the capacity and performance of wireless communications systems. Channel characteristics indicative of signal reception quality for downlink or bi-directional traffic for each channel/antenna resource combination are measured or estimated at a subscriber. Corresponding channel characteristic information is returned to the base station. Channel characteristics information may also be measured or estimated for uplink or bi-directional signals received at each of multiple receive antenna resources. The base station employs channel allocation logic to assign uplink, downlink and/or bi-directional channels for multiple subscribers based on channel characteristics measured and/or estimated for the uplink, downlink and/or bi-directional channels.
US08797960B2
A femtocell gateway apparatus arranged on a mobile IMS network comprises a conversion unit that when receiving a request from a terminal via a mobile network, transfers the request to a femtocell access point located in a home, reads a stream or file including at least one of video and audio, from at least one of devices connected to the femtocell access point and devices connected thereto via a home network, subjects the read stream or file to a conversion suitable for at least one of the capability of the terminal and the characteristics of the network, and outputs the stream or file converted. The output packet is then sent through a packet forwarding apparatus on the mobile network to the terminal.
US08797956B2
A radio base station includes a mobile communication system that sends and receives control signals between a mobile station and a mobile switching center via a first radio bearer, a second radio bearer, and a wired bearer. The relay node includes a first radio bearer function, a second radio bearer function, an IP layer function, an SCTP layer function, and an application layer function. The radio base station includes a second radio bearer function, a wired bearer function, and an IP layer function. The mobile switching center includes a wired bearer function, IP layer function, SCTP layer function, and an application layer function. Keep-alive processing is performed between the SCTP layer function of the relay node and the SCTP layer function of the mobile switching center. Security processing is performed between the IP layer function of the relay node and the IP layer function of the mobile switching center.
US08797953B2
In accordance with embodiments of the present disclosure, a process for providing in-vehicle networking services is presented. The process may be implemented to establish a first network between a sub-management server (SMS) and a main server, wherein the SMS utilizes a first networking mechanism to communicate with the main server. The process may establish a second ad-hoc network between the SMS and a plurality of mobile devices, wherein each of the plurality of mobile devices utilizes a second networking mechanism to communicate with the SMS. The process may further transmit a first network message from the SMS to the main server, upon receiving by the SMS the first networking message from one of the plurality of mobile devices.
US08797951B2
A communication system includes transfer node 200 receiving a registration request signal from mobile node 100 and server 300 receiving the registration request signal from transfer node 200. Transfer node 200 determines, depending on the type of a transmission trigger for the registration request signal occurred, whether or not the number of mobile nodes which will be registered or which will have registration expiry time postponed are a plurality. If the plurality of mobile nodes are not to be processed, transfer node 200 transmits a registration request signal for one mobile node to server 300. If the plurality of mobile nodes are to be processed, transfer node 200 transmits an aggregation registration request signal concerning the plurality of mobile nodes, to server 300. Server 300 executes a process of registering or postponing the mobile node or the plurality of mobile nodes according to signal received from transfer node 200.
US08797945B2
A system and method a hybrid scheme of mode decision in a network having a plurality of mobile stations communicably coupled to a base station may include a mode decision module associated with the base station. The mode decision module may include one or more processors configured to select a first mode configuration for use during transmission of a first communication from the base station, receive first feedback information comprising a first mode recommendation and first channel information, identify a first system state of the first communication based at least in part on the first condition information, determine whether to use the first mode recommendation configuration based at least in part on the first system state, and configure the second communication using a second mode configuration based on the determination.
US08797935B2
A method of performing a random access in a mobile communication system and an apparatus for the same are disclosed. The method of performing a random access includes transmitting a random access preamble to a network node and receiving a random access response from the network node, wherein the random access response is received through a first subframe if the random access preamble is a dedicated preamble, and the random access response is received through a second subframe which is different from the first subframe if the random access preamble is a non-dedicated preamble.
US08797933B2
A mobile communication device is provided with a wireless module and a controller module. The wireless module performs wireless transceiving to and from a service network. The controller module receives, on a paging channel, a first predetermined number of symbols in a frame of a time slot via the wireless module, and determines whether to enter a standby mode according to the first predetermined number of symbols. Also, the controller module stops the receiving of subsequent symbols in the frame by deactivating the wireless module in response to entering the standby mode.
US08797932B2
Controlling a power state of a communications device includes: receiving over a network at a communications device in a low-power mode from a scheduling device an assignment of a power state schedule indicating one or more intervals to enter an active state period and one or more intervals to enter a sleep state period; and during an active state period at the communications device, receiving over the network from a second communications device aware of the power state schedule a request that the communications device exit the low-power mode.
US08797922B2
In a relay system, a relay node (RN) may communicate with a donor base station (BS) via a backhaul link. For example, the RN may receive control information from the donor BS over the backhaul link. The control information may be transmitted by the donor BS using a specific aggregation level. The RN may decode the control information by monitoring search spaces associated with various aggregation levels. When two or more search spaces are overlapped, decoding candidates of different aggregation levels of the same starting control channel element (CCE) index may result in a successful control information decoding, when actual control information transmission may use only one of the aggregation levels. Such a possibility may result in ambiguous decoding of the control information. Certain aspects of the present disclosure generally relate to handling the ambiguous decoding.
US08797918B1
The present invention is directed at a method and apparatus for determining a distributed Serial Attached Small computer system interface (SAS) topology in a storage network system. Once a SAS storage network element, such as a SAS Expander, receives notification that a downstream SAS topology has changed, the SAS Expander queries all downstream SAS Expanders to update its route table.
US08797912B2
Exemplary embodiments of integration apparatus, communication network and method for integrating a network node into a communication network can be provided. For example, an integration apparatus for integrating a network node into a communication network may include a monitoring device, a policy device, an identifying manager device, a linking manager device, a commissioning manager device. The monitoring device can be configured to detect activating of the network node within the communication network. The identifying manager device can be configured to identify the activated network node. Furthermore, the identifying manager device may be further configured to receive a policy from the policy device. Such exemplary policy may be configured to facilitate an integration of the identified network node into the communication network. The linking manager device can be configured to establish a link between the network node and at least the integration apparatus. Further, the commissioning manager device can be configured to use the link to configure the network node in accordance with the policy.
US08797904B2
A method of monitoring a control channel in a wireless communication system includes receiving, by a user equipment (UE) from a network, information associated with a discontinuous reception (DRX) period via a radio resource control (RRC) signaling, wherein the DRX period includes a monitored duration and an unmonitored duration; monitoring, by the UE, a downlink control channel during the monitored duration, wherein the downlink control channel is used for a downlink shared channel (DL-SCH); continuing monitoring the downlink control channel if the downlink control channel is successfully decoded by the UE during the monitored duration; and entering a DRX mode upon receiving a command message.
US08797900B2
A beacon signal including image information and an application to cause acknowledgment of receipt of the beacon signal is transmitted in order to measure approximate latency in transmission over a communication link that exhibits latency such as a packet switched digital network. Transmission latency for image information for an image included in a web conference is then estimated and elapsed time after transmission of such image information is measured and an indication provided to a presenter or conference monitor when the image should be visible to a conference participant which can be easily selected by the presenter.
US08797897B1
In some embodiments, an apparatus includes a first switch having an egress port configured to be coupled to a second switch to collectively to define a single logical entity having a set of virtual identifiers. A first set of virtual identifiers from the set of virtual identifiers is associated with the first switch, a second set of virtual identifiers from the set of virtual identifiers is associated with the second switch. The first switch is configured to receive a forwarding table associating a first set of destination addresses with a set of identifiers local to the first switch and associating a second set of destination addresses with a set of identifiers local to the second switch. Each identifier from the first set of identifiers is uniquely associated the first set of virtual identifiers. Each identifier from the set of identifiers is uniquely associated the second set of virtual identifiers.
US08797889B2
A radio base station transmits data symbols to a mobile terminal on multiple frequency carriers, e.g., in accordance with the MC-WCDMA or cmda2000 3x air interface protocols. The radio base station instructs the mobile terminal to report channel quality measurements obtained by the terminal for the multiple carriers over the same uplink channel during successive reporting intervals. According to one embodiment, the mobile terminal reports channel quality by receiving data symbols transmitted on a plurality of frequency carriers in a multi-carrier CDMA environment and measuring channel quality for the different frequency carriers. The mobile terminal reports individual ones of the channel quality measurements over the same uplink channel during successive reporting intervals.
US08797877B1
In general, techniques are described for allocating virtual output queue (VOQ) buffer space to ingress forwarding units of a network device based on drain rates at which network packets are forwarded from VOQs of the ingress forwarding units. For example, a network device includes multiple ingress forwarding units that each forward network packets to an output queue of an egress forwarding unit. Ingress forwarding units each include a VOQ that corresponds to the output queue. The drain rate at any particular ingress forwarding unit corresponds to its share of bandwidth to the output queue, as determined by the egress forwarding unit. Each ingress forwarding unit configures its VOQ buffer size in proportion to its respective drain rate in order to provide an expected delay bandwidth buffering for the output queue of the egress forwarding unit.
US08797874B2
An apparatus comprising a network node coupled to an internal network comprising a plurality of internal nodes and configured to forward a packet designated to the internal network based on service reachability information that indicates at least one of the internal nodes for forwarding the packet to, wherein the service reachability information is sent and updated in a dynamic manner by the internal network. Also included is a network apparatus implemented method comprising receiving service reachability information from an internal network, maintaining the service reachability information in an interior Forwarding Information Base (iFIB), receiving a packet with a public destination address associated with the internal network; and forwarding the packet to appropriate locations in the internal network using the service reachability information in the iFIB.
US08797873B2
A wireless transmit/receive unit (WTRU) and a method for a WTRU to send scheduling information (SI) is disclosed. The SI may be sent in response to the having a non-zero grant smaller than needed to send a protocol data unit (PDU).
US08797872B1
A distribution node among a network of distribution nodes for packet based distribution of voice, video and data packets including multicast packet based distribution of video channels from at least one video server distribution node to a plurality of client distribution nodes selectively consuming the video channels is disclosed. The distribution node comprises a responsive to selection of a new video channel to identify a sub-set of packets within a set of packets of the new video channel for expedited delivery and to expedite delivery of the identified sub-set of packets; thereby reducing switchover latency of the distribution node in response to a selection of the video channel.
US08797870B2
A method, system and apparatus are provided for measuring the quality of voice (QOV) in a communication network. A time-stamped voice data packet is received. The time stamped on the voice data packet indicates the time at which the voice data packet arrives at intermediate devices. In an embodiment of the invention, the intermediate devices at each hop stamp the time. Thereafter, the voice data packets are analyzed to measure the quality of voice in the communication network.
US08797860B2
A method for implementing flow control in a switch fabric includes: sending, by each input port, request information to a destination output port where no packet congestion occurs; according to respective back pressure information, determining, by the destination output port which receives the request information, whether to return grant information to each input port to establish a matching relationship between each input port and the destination output port which returns the grant information; according to the matching relationship, scheduling, by each input port, a cell to a destination output port that is matched with each input port. Through the embodiments of the present invention, quantity of information transmitted between an input port and an output port is reduced, the design of the switch fabric is simplified, and data processing efficiency in the switch fabric is improved.
US08797857B2
In a first embodiment of the present invention, a method for handling a Transaction Layer Packets (TLPs) from devices in a switch is provided, the method comprising: subtracting a first number of credits from a credit pool associated with a first port on which a first device is connected; determining if the amount of credits in the credit pool associated with the first port is less than a first predetermined threshold; and if the amount of credits in the credit pool associated with the first port is less than the first predetermined threshold, assigning a second number of credits from a shared credit pool to the credit pool associated with the first port.
US08797851B2
A method of locating traffic reduction entities in a communication network, optionally where at least one reduction entity is located within each network path which allows traffic flow between endpoints and central stations. The method comprises assigning a plurality of allocation cost values each estimating cost of locating of one of a plurality of traffic reduction entities on one of a plurality of intermediate nodes of a communication network, calculating a plurality of excess load cost values each calculated according to excess load cost between two adjacent intermediate nodes of the plurality of intermediate nodes, identifying a node set selected from the plurality of intermediate nodes using a target function based on the plurality of cost values and the plurality of excess load cost values, and outputting instructions for locating the plurality of traffic reduction entities on the communication network according to the node set.
US08797844B1
In general, techniques are described for scheduling traffic for delivery over an aggregated bundle of links. The techniques may be implemented by a network device comprising a control unit. The control unit configures a primary logical interface such that the primary logical interface is associated with a primary link of the aggregated bundle of links. The primary logical interface is associated with a primary scheduling module that schedules the traffic for delivery via the primary link. The control unit further, prior to detecting a failure associated with the primary scheduling module, configures a backup logical interface such that the backup logical interface is associated with a backup link of the aggregated bundle links. The backup logical interface is associated with a backup scheduling module that schedules, in response to detecting the failure associated with the primary scheduling module, the traffic for delivery downstream via the backup link.
US08797838B2
A device may isolate a first failure of a network interface that transports packets from one point in a network to another point in the network, may detect a subsequent failure of the interface, and may identify a recovery of the network interface from the subsequent failure. In addition, the device may restore the network interface to the network to enable the interface to transport packets after a wait-to-restore period that is approximately greater than or equal to a time difference between when the first failure and the subsequent failure occur.
US08797832B2
A discrete Fourier transform circuit (201) calculates a first frequency spectrum in a predetermined frequency range from a detection signal in a predetermined segment. An expectation calculation circuit (202) calculates a second frequency spectrum corresponding to an expectation signal of a pattern of digital information that is present in the predetermined segment and obtained via an optical disc (100). A branch metric calculation circuit (203) calculates a difference between the first frequency spectrum and the second frequency spectrum. A maximum likelihood decoding circuit (207) decodes the digital information by selecting a pattern in which the difference between the first frequency spectrum and the second frequency spectrum is minimized as a decoding result.
US08797826B2
A method and related apparatus are described for generating acoustic signals for use in a vibratory seismic survey, including at least two different sweep signals for the control of at least two different types of vibrators; and matching the phases of the different sweep signals at a transition frequency from one sweep signal to another.
US08797824B2
A method of sensing using a phase based transducer in which a transducer response is provided at multiple different levels of sensitivity. The different levels of sensitivity are used to produce an output which does not overscale across a wide range of signal levels. This is particularly useful for use in conjunction with multiplexed arrays of fiber optic sensors for seismic surveying. Methods of sensor calibration and noise reduction are also described.
US08797820B2
A non-volatile memory cell using two transistors, a bit select and a sense device and an antifuse device. The antifuse device is implemented with a field-effect transistor operated to behave like an antifuse when the cell is selected and a modest programming voltage under 5.5 volts and a current under 5-μA is applied. Only a soft breakdown is needed in the thin gate oxide because a local sense transistor is used during read operations to detect the programming and amplify it for column sense amplifiers. Reading also only requires low voltages of about one volt.
US08797815B2
A measuring device for the efficient storage of test values and associated addresses provides a first storage region (30) and a second storage region (33). The first storage region (30) comprises a first number of memory cells (32) of a first cell size (31). The second storage region (33) comprises a second number of memory cells (35) of a second cell size (34). The measuring device further provides a third storage region (36) made from a second number of memory cells (38). A memory cell (38) of the third storage region (36) is rigidly assigned to each memory cell (35) of the second storage region (33). A control unit stores test values in the storage regions in a cumulative manner, separated according to addresses, for storing the test values only in the first storage region, if the test value for the respective address does not exceed the first cell size, for storing test values which exceed the first cell size jointly in memory cells of the first storage region and memory cells of the third storage region, and for storing associated addresses of the test values which exceed the first cell size in the corresponding memory cells of the second storage region.
US08797812B2
A delay-locked-loop (DLL) circuit having a DLL that operates when an external clock signal has a low frequency and a DLL that operates when an external clock signal has a high frequency is disclosed. The DLL circuit includes a first DLL and second DLL. The first DLL adjusts a delay time of an external clock signal to generate a first internal clock signal synchronized with the external clock signal when the external clock signal has a low frequency. The second DLL adjusts the delay time of the external clock signal to generate a second internal clock signal synchronized with the external clock signal when the external clock signal has a high frequency.
US08797808B2
A semiconductor device includes: a non-volatile memory unit; a data bus configured to transfer data outputted from the non-volatile memory unit; a selection signal generation unit configured to generate a plurality of selection signals based on a clock; and a plurality of latch sets configured to each be enabled in response to a selection signal that corresponds to the latch set among the selection signals and store the data transferred through the data bus.
US08797807B2
According to one embodiment, the semiconductor memory includes a memory cell array which includes memory cells to store data, a buffer circuit which includes latches, each of the latches including transistors as control elements and a flip-flop, and a control circuit which turns off the transistors to deactivate one or more of the latches.
US08797795B2
Methods and apparatus are provided for intercell interference mitigation using modulation coding. During programming of a flash memory, a modulation encoding is performed that selects one or more levels for programming the flash memory such that a reduced number of cells in the flash memory are programmed with a value that violates one or more predefined criteria. During a reading of a flash memory, a modulation decoding is performed that assigns one or more levels to cells in the flash memory such that a reduced number of cells in the flash memory are read with a value that violates one or more predefined criteria. The predefined criteria can be based, for example, on one or more of an amount of disturbance caused by the programmed cell; a voltage shift of a programmed cell: a voltage stored by a programmed cell; an amount of change in current through a programmed cell; and an amount of current through a programmed cell.
US08797794B2
Apparatuses and methods can include write schemes for a thyristor memory cell in which an access pulse applied to the gate of the thyristor memory cell is adjusted relative to the data pulse to write data into the thyristor memory cell. Some of the write schemes may substantially reduce or eliminate an unselected data line disturb. In various embodiments, the thyristor memory cell can be structured with two control nodes and its cathode or anode coupled to a reference voltage node common to all thyristor memory cells in a memory array. Additional apparatuses and methods are disclosed.
US08797791B2
The gate tunnel leakage current is increased in the up-to-date process, so that it is necessary to reduce the gate tunnel leakage current in the LSI which is driven by a battery for use in a cellular phone and which needs to be in a standby mode at a low leakage current. In a semiconductor integrated circuit device, the ground source electrode lines of logic and memory circuits are kept at a ground potential in an active mode, and are kept at a voltage higher than the ground potential in an unselected standby mode. The gate tunnel leakage current can be reduced without destroying data.
US08797786B2
A static RAM includes a plurality of word lines, a plurality of global bit line pairs, a plurality of static-type memory cells, a plurality of sense amplifiers, a plurality of local bit line pairs provided in correspondence with each global bit line pair, and a plurality of global switches, wherein the plurality of static-type memory cells is connected to the corresponding local bit line pair in response to a row selection signal, and at the time of read, the row selection signal is applied to the word line and after the corresponding local bit line pair is brought into a state corresponding to contents stored in the memory cell, application of the row selection signal is stopped and then the corresponding global switch is brought into a connection state and after changing the state of the global bit line pair, the corresponding sense amplifier is operated.
US08797769B2
An example controller for a power converter includes a feedback sampling circuit, drive logic and a false sampling prevention circuit. The feedback sampling circuit is coupled to sample a feedback signal received from a terminal of the controller and to generate a sample signal representative of a value of the feedback signal. The drive logic is coupled to the feedback sampling circuit and coupled to control the power switch to regulate an output of the power converter in response to the sample signal. The false sampling prevention circuit is coupled to receive a sampling complete signal that indicates when the sampling of the feedback signal is complete. The false sampling prevention circuit is further coupled to the drive logic to extend the off time of the power switch until the sampling complete signal indicates that the sampling of the feedback signal by the feedback sampling circuit is complete.
US08797768B2
Provided is a power conversion device capable of detecting a short circuit failure and protecting from the same securely. The power conversion device includes: a three-phase bridge type power conversion circuit including a semiconductor switch including a first main terminal, a second main terminal, and a control terminal; a control circuit for controlling an operation of the semiconductor switch; and a voltage detection circuit for monitoring a voltage between DC terminals of the power conversion circuit, in which the control circuit has a protection function of turning off the semiconductor switch if the voltage between the DC terminals of the power conversion circuit, which is detected by the voltage detection circuit, is lower than a predetermined value for a predetermined period of time or longer.
US08797766B2
A power supply injects a series of “tickle” pulses into a pulse width modulated (PWM) controller to induce the controller to generate PWM pulses at a minimum switching frequency, preferably one that is super-sonic (especially for audio applications). The switching frequency may also be selected or controlled such that it avoids resonances in the power supply. The “tickle” pulses may be clocked by the same clock that times the PWM controller, and they may be shaped to help ensure that the power supply maintains some regulation during low-load conditions.
US08797764B2
An adjustable riser cage retains varying length adapters. For example, the adjustable riser cage may support a short adapter card, a ¾ length adapter card, or a long adapter card. The adjustable riser cage includes a riser portion and an extension portion. The riser portion includes one or more guidance features and a plurality of first retention members. The extension portion is slide ably supported against only the one or more guidance members, and includes a second retention member configured to engage with a particular first retention member depending upon a length of the adapter card to be supported. The adjustable riser cage may be installed into a larger electronic system having a plurality of electronic components. The adjustable riser cage allows for increased access to the electronic components because the extension portion is not supported by external or non-integral support features that may block access to the electronic components.
US08797760B2
A substrate includes: a base; and a plurality of bonding terminals arranged on at least one surface of the base, wherein the plurality of bonding terminals include a first bonding terminal and a second bonding terminal, the first bonding terminal and the second bonding terminal include, in plan view of the base, a circle contacting portion extending along the circumference of a circle tangent to the first bonding terminal and the second bonding terminal, all of the plurality of bonding terminals are arranged so as not to protrude from an area including the circle and the inside thereof, and the circle contacting portion includes at least a first circle contacting portion disposed in the first bonding terminal and a second circle contacting portion disposed in the second bonding terminal.
US08797759B2
An electronic module with excellent electrical characteristics includes an electronic component, a mount board, signal electrodes, a ground electrode, and an insulating layer. The electronic component is mounted on a first main surface of the mount board. The signal electrodes and the ground electrode are located on a second main surface of the mount board. The insulating layer is arranged so as to cover a portion of the second main surface of the mount board. The insulating layer is arranged so as not to cover end portions of the signal electrodes that face the ground electrode.
US08797756B2
An integrated interconnect tab that provides a mechanically repeatable connection point to electrical components mounted on a printed circuit board. The integrated interconnect tab comprises a conductive pad surrounded by a vertical sidewall structure formed in an overmolded insulating layer. In one embodiment, a large pad accommodates connections to high-power circuit elements such as batteries and high-voltage capacitors. The sidewall structure helps align and guide the position of an interconnecting device such as a wire ribbon connector, facilitating automation of a subsequent attachment process. An automated method of making a PCB assembly having integrated interconnect tabs entails attaching circuit elements and interconnect tabs to a surface of a PCB substrate, encapsulating the attached components, and selectively machining the encapsulating layer to expose weld tabs, to form the vertical sidewall structure surrounding the tabs, and to create mechanical retention features to aid in welding.
US08797751B2
A server cabinet includes a housing and a power distribution unit (PDU). The housing includes a bottom plate defining two first holes, and a top plate defining two second holes. The PDU includes a main body, a top base, a motion member, a resilient member, and a handle. Two first pins protrude down from the main body to be inserted into the first holes. The top base is fastened to the main body. A top of the top base defines two through holes. The motion member is movably received in the top base, and forms two second pins. The resilient member is connected between the main body and the motion member, to bias the motion member to move up, thereby allowing the second pins to extend out of the corresponding through holes and be inserted into the second holes. The handle is attached to the motion member.
US08797750B2
A first metal sheet and a second metal sheet are arranged opposite a printed circuit board including a second connector that fits into a first connector that is arranged at one end of a cable. A hole section through which the first connector passes is arranged in each of the first metal sheet and the second metal sheet. The first connector fits into the second connector by passing through each of the hole sections of the first metal sheet and the second metal sheet. The first metal sheet and the second metal sheet support a connector case of the first connector, thus improving the load bearing characteristics of the cable connection.
US08797745B2
A server cabinet includes a rack and a server unit installed in the rack. The server unit includes a receiving portion extending rearward from a rear wall of the server unit adjacent to a sidewall of the server unit, a motherboard with a first connector, and a cable with a second connector. The motherboard is received in the server unit. The first connector is received in the receiving portion. The receiving portion defines a through hole adjacent to the sidewall. The second connector of the cable extends through the through hole, to be connected to the first connector of the motherboard.
US08797743B2
An electronic device mounted on a circuit board and accommodated in a housing includes a heat source element accommodated in the housing and mounted on the circuit board, and a heat conducting member accommodated in the housing. The heat conducting member is movably mounted on the circuit board. An elastic member fixes the heat source element and the heat conducting member in abutment with each other. The elasticity of the elastic member permits variations in the relative positions of the heat source element and the heat conducting member while maintaining the abutment of the heat source element and the heat conducting member.
US08797733B2
A fastening module for fastening a data storage device is provided. The data storage device includes first and second positioning apertures. A frame of the fastening module includes a retaining hole, and first and second positioning holes. The data storage device is slidably received in the frame. A securing member of the fastening module includes a main body, a pivot member, and a pin. The main body includes a pivot hole pivotally connected by the pivot member. A securing piece of the pivot member passes through the retaining hole and rotates relative to the main body to fasten the securing member to the frame. When the securing piece passes through the retaining hole, the pin passes through either the first or second positioning hole and inserts into either the first or second positioning aperture to fasten the data storage device at different positions.
US08797714B2
Patient monitoring systems can include a system for transmitting information from a patient parameter sensor to a patient monitor. The system can include an analog-to-digital converter close to the patient parameter sensor and can transmit digital signals through a cable to the patient monitor.
US08797713B2
Provided is a laminated ceramic capacitor that can suppress the decrease in insulation resistance after a moisture-resistance loading test. It contains ceramic layers which include: main-phase grains that have a perovskite-type compound containing Ba and Ti and optionally containing Ca, Sr, Zr, and Hf; and secondary-phase grains that have an average grain size of 100 nm or more and have a Si content of 50 mol % or more per grain, the average grain boundary number, represented by (Average Thickness for Ceramic Layers 3)/(Average Grain Size for Main Phase Grains)−1, is greater than 0 and 3.0 or less, and the average grain size for the secondary-phase grains is ¼ or more of the average thickness for the ceramic layers 3.
US08797709B2
There is provided a multilayer ceramic electronic part, including: a ceramic element having a plurality of dielectric layers laminated therein; and a plurality of first and second internal electrodes each including a body part formed on at least one surface of each of the plurality of dielectric layers within the ceramic element, the first and second internal electrodes including first and second lead parts extended from one surfaces of the body parts to be exposed through one surface of the ceramic element, respectively, wherein inside connection portions between the body parts and the first and second lead parts are curvedly formed, and have a curvature radius of 30 to 100 μm.
US08797701B2
An electronic load for testing stability of a power voltage of a power source under test (PSUT) includes a voltage supply device, a field effect transistor (FET), an amplification circuit, and a current sampling resistor. The amplification circuit includes a first input, a second input, and an output. The voltage supply device is connected to the first input. The second input is connected to a source electrode of the FET. The output is connected to a gate electrode of the FET. A drain electrode of the FET is connected to the PSUT. One end of the current sampling resistor is grounded, and the other end of the current sampling resistor is connected to the source electrode of the FET and the second input. The voltage supply device outputs a control voltage. The amplification circuit amplifies the control voltage and drives the FET using the amplified control voltage.
US08797683B2
A magnetic head in one embodiment includes a first outer array of writers; a second outer array of writers; a first inner array of writers positioned between the first and second outer arrays; a second inner array of writers positioned between the first inner array and the second outer array; and an array of readers, at least some of the readers being generally aligned with the writers of the first and second outer arrays in a direction of media travel relative thereto, wherein the writers of the first inner array are misaligned with the writers of the first outer array relative to the direction of media travel.
US08797682B1
In one general embodiment, an apparatus includes a magnetic head. The magnetic head has a first array of data transducers; a second array of data transducers spaced from the first array; and a third array of data transducers positioned between the first and second arrays. The magnetic head is positionable between a first position and a second position. A pitch of the data transducers of at least two of the arrays presented to the tape is compatible with a first format when the magnetic head is positioned between the first and second positions. The pitch of the data transducers of at least one of the arrays is compatible with a second format when the longitudinal axis of the third array is oriented about perpendicular to the intended direction of tape travel. A data track pitch of the first format is different than the data track pitch of the second format.
US08797675B2
The disclosure is related to systems and methods for adaptive seek latency in a rotating storage device. In one example, a servo control circuit can be configured to determine a seek latency and provide the seek latency to another controller or control circuit that is configured to implement the seek latency. Further, the servo control circuit can calculate the seek latency based on a measurement of a variable condition of a device and the servo controller can adjust the seek latency as the condition varies. In some examples, the variable condition may include power measurements, temperature measurements, a fault rate, other conditions, or any combination thereof. Also, different algorithms for calculating the seek latency may be implemented based on a selected goal of the system, such as power savings or reduced head vibration.
US08797673B2
An implementation of a circuit disclose herein comprises a vibration sensor circuit that generates a sensor signal from a disturbance signal, a lattice filter circuit that decorrelates the sensor signal to generate orthogonal backward prediction errors, and a multiple regression filter that estimates a disturbance correction signal using the orthogonal backward prediction errors.
US08797666B2
An adaptive detector, such as a maximum a posteriori (MAP) detector for a read channel, is disclosed. In one or more embodiments, a data processing apparatus, such as a read channel digital front end, includes an equalizer configured to equalize X sample data to yield equalized Y sample data. A noise predictive filter configured to receive the equalized Y sample data yielded by the equalizer is operable to filter noise in the equalized Y sample data. A detector is configured to perform iterative data detection on the filtered equalized Y sample data. The detector is operable to program a branch metric, a variance, and a scaling factor for equalizer adaptation during a global iteration of the detector.
US08797662B2
Photonic nanostructures, light absorbing apparatuses, and devices are provided. The photonic nanostructures include a plurality of photonic nanobars configured to collectively absorb light over an excitation wavelength range. At least two of the photonic nanobars of the plurality have lengths that are different from one another. Each photonic nanobar of the plurality has a substantially small width and a substantially small height relative to the different lengths. A method for forming such may comprise forming a plurality of first photonic nanobars comprising a width and a height that are smaller than a length of the plurality of first photonic nanobars, and forming a plurality of second photonic nanobars comprising a width and a height that are smaller than a length of the second photonic nanobar, wherein the lengths of the plurality of first photonic nanobars and the lengths of the plurality of second photonic nanobars are different from one another.
US08797660B1
A mechanism and method for precisely arranging two or more optical elements, such as those incorporated into photoelastic modulators (PEMs), at a specific angular orientation. The method includes supporting one optical element in an annular mounting member that has an optic axis, and supporting other optical elements in other annular mounting members that have optic axes, and concentrically stacking together the two or more mounting members about a central axis in a manner such that one mounting member may be rotated relative to the others about the central axis and such that the optic axes of the mounting members define an optics angle, and rotating one mounting member relative to the others to define the specific angular orientation of the optical elements.
US08797653B2
A curvature control device includes a first fluid that has a light transmitting property and a polar property; a second fluid that has a light transmitting property; a chamber that the first fluid and the second fluid are accommodated without being mixed with each other, wherein a boundary surface between the first fluid and the second fluid comprises a first surface that is a lens surface and a second surface that induces a change in a curvature of the first surface; a first intermediate plate that is disposed in the chamber, and includes a first through-hole that forms a diameter of a lens corresponding to the first surface and a second through-hole that forms a path of the second fluid; and an electrode portion configured to generate an electric field that changes a position of the second surface.
US08797645B2
A method for the optical detection of an illuminated specimen, wherein the illuminating light impinges in a spatially structured manner in at least one plane on the specimen and several images of the specimen are acquired by a detector in different positions of the structure on the specimen. An optical sectional image and/or an image with enhanced resolution is then calculated. The method includes generating a diffraction pattern in the direction of the specimen in or near the pupil of the objective lens or in a plane conjugate to the pupil. A phase plate with regions of varying phase delays is dedicated to the diffraction pattern in or near the pupil of the objective lens or in a plane conjugate to said pupil, and different phase angles of the illuminating light are set.
US08797637B2
Provided are a color display device capable of colorized display in a reflection type display device which is adopted to electronic paper and the like without degrading the degree of brightness and with high efficiency, and also with ease and lower costs, and a method of producing the same. The color display device includes: a drive-side substrate (3) on which pixel electrodes (2) connected to pixel switches (1) are formed in a given pattern; a transparent substrate (5) including an electrically conductive layer (4); display media (10) which have white color and black color and are electrically charged; a reflection type display element including the display media (10) disposed between the drive-side substrate (3) and the transparent substrate (5), for forming any appropriate image by pixels corresponding to the pixel electrodes (2); and a color filter (11) provided on the transparent substrate (5) side of the reflection type display element, in which the color filter (11) forms pixel regions (14) by defining the pixels with colorless partition walls (13) which are formed on a substrate, and has colored layers (15) formed therein by ejecting colored inks of three colors, which are colored with at least blue (B), green (G), and red (R), by an inkjet method.
US08797630B2
A display panel includes a first substrate, a third substrate and a second substrate disposed therebetween. A first grid structure having first openings is disposed on the first substrate to expose pixel regions. A second grid structure having second openings and a third grid structure having third openings are disposed on the second substrate and the third substrate, respectively. A first polar solution layer is disposed between the first substrate and the second substrate. A second polar solution layer is disposed between the third substrate and the second substrate. A first non-polar solution layer is disposed within the first openings. A second non-polar solution layer is disposed within the second openings. The second non-polar solution layer disposed in different pixel regions has different colors. A third non-polar solution layer is disposed within the third openings. The third non-polar solution layer disposed in different pixel regions has different colors.
US08797616B2
This invention relates to a conversion table compression method of compressing a conversion table and storing the conversion table in a storage medium, including an axial difference creating step of creating an axial difference table by calculating, from data stored in the conversion table, the difference values between grid points adjacent in predetermined directions along a plurality of axes which define the input space of the conversion table, a compressing step of compressing the axial difference table to create compressed data, and a storing step of storing the compressed data in a recording medium.
US08797615B2
An image forming apparatus includes an image forming station for forming a pattern image on a recording material; an image reading station for reading a pattern image formed on a recording material by the image forming station; and a tone gradation corrector for calculating a halftone dot area property on the basis of the density of the pattern image read by the image reading station and for executing tone gradation correction in the image forming station on the basis of the calculated halftone dot area property.
US08797597B2
A method for printing on a substrate, wherein the substrate is printed upon with a plate-based printing process, particularly with an offset printing process, and with a plateless printing process, particularly with an inkjet printing process, inline with the plate-based printing process. According to the invention, a printing resolution of the plateless printing process is determined depending on a printing speed of the plate-based printing process.
US08797595B2
In an image inspection apparatus, a first accumulation part acquires a reference accumulated value distribution by accumulating values of pixels in a reference image arranged in an image recording direction. A second accumulation part acquires an inspection accumulated value distribution by accumulating values of pixels in the inspection image arranged in the image recording direction. A sensitivity correction part performs sensitivity correction wherein a plurality of accumulated values other than a local peak in the inspection accumulated value distribution are corrected so as to relatively approach a plurality of corresponding accumulated values in the reference accumulated value distribution, based on a ratio between the inspection accumulated value distribution from which the local peak has been removed and the reference accumulated value distribution. A comparison part subtracts the reference accumulated value distribution from the inspection accumulated value distribution that has undergone the sensitivity correction to detect a defect.
US08797591B2
An image forming apparatus shifts dots of a recording dot pattern by half of a dot pitch in a main scanning direction to generate a shift dot pattern, corrects a jagged outline of the shift dot pattern caused by shifted dots using correction dots to generate a corrected shift dot pattern, and determines an increased number of ink droplets to be additionally ejected from one or more of a plurality of nozzles to form the shifted dot or the correction dot of the corrected shift dot pattern with an increased dot size, based on an estimated shift value indicating the displacement in landing position of ink droplets forming the dot of the recording dot pattern.
US08797587B2
An image processing device is provided, which includes a first processor, a second processor configured to perform communication with the first processor, and a memory connector that is connected with the second processor, configured such that an external memory is detachably attached thereto, and provided with a terminal that is connected with the first processor and connectable with a memory area of the external memory which area stores specification information of the external memory. The first processor is configured to, prior to the second processor being booted, determine whether an error relating to the external memory is caused, via the terminal.
US08797585B2
A system in an embodiment includes an image forming apparatus, an erasing apparatus, a first apparatus, and a display unit. The image forming apparatus forms an image on a sheet using a decolorable color material. The erasing apparatus decolorizes an image. The first apparatus computes, from a reduction in the number of sheets achieved by a setting for image formation in the image forming apparatus, the amount of a reduction in environmental burdens achieved by use of the image forming apparatus and computes, from the number of sheets erased by the erasing apparatus, the amount of a reduction in environmental burdens achieved by use of the erasing apparatus. The display unit simultaneously displays the amount of the reduction in environmental burdens achieved by the image forming apparatus and the amount of the reduction in environmental burdens achieved by the erasing apparatus.
US08797583B2
A first acquiring section acquires, at first timing after a print job is received and before a print instruction is given, first print data located at a reference location indicated by reference information of data included in the print job, and stores the first print data in a storage section. A second acquiring section acquires, at second timing when the print instruction is given, second print data located at the reference location. A difference determining section determines whether the second print data are different from the first print data. A necessity determining section determines whether the second print data are necessary, when the second print data are different from the first print data. A printing section prints the second print data when the second print data are necessary, and prints the first print data when the second print data are unnecessary.
US08797582B2
A tape printing apparatus, including: an input unit configured to input print data and a layout of the print data; a display unit configured to have a display screen; a dividing unit configured to divide the print data into a plurality of blocks based on the layout input by the input unit; a display control unit configured to display the print data by scrolling the print data on the display screen, using the display unit, for each of the blocks divided by the dividing unit; and a printing unit configured to print the print data on a tape-shaped print medium in accordance with the layout input by the input unit.
US08797581B2
A wireless communication device may execute a response process and a search process with a first operation being performed as a trigger in a first period after the first operation. The response process may include receiving a search signal from a specific external device and sending a response signal to the specific external device in response to the search signal. The search process may include sending the search signal to the specific external device and receiving the response signal from the specific external device. The wireless communication device may communicate a wireless profile with the specific external device so as to establish a wireless connection with the specific external device in a case where the first operation is performed. The wireless communication device may execute the response process in a second period before the first operation is performed.
US08797579B2
A printer, scanner device and methods for using same are described herein. A printer device may include a dedicated input that, when actuated, generates and sends a request to a computer for known data or a predetermined print job, e.g., schedule information from a personal information management (PIM) application. A scanner device may include another dedicated input that, when actuated, automatically scans a document fed to the device by the user and sends the scanned image to IM (or other) software on a computer, bypassing the need to manipulate the scanned image using scanner software. The device may be used with printed metapaper, which includes a barcode or other indicia identifying the metapaper and corresponds to a stored template image of the metapaper. When the metapaper is rescanned, the scan can be compared to the stored template information to identify changes and synchronize the changes with the IM software.
US08797578B2
A printing control apparatus controls an order of processing executed by a printing apparatus for print jobs included in a first print job group and print jobs included in a second print job group. A detection unit detects a first and second print job included in the first print job group, wherein the second print job has common paper information with the first print job. A control unit arranges processing orders of the detected first and second print jobs to be successive to each other, and arranges a processing order, within the second print job group, of a third print job, which is included in the second print job group and is grouped by a predetermined category together with the first print job, to be equivalent to the processing order of the first print job within the first print job group.
US08797574B2
A printing control apparatus is provided. The printing control apparatus includes a storage unit which stores at least one image, a profile generation unit which generates a profile to perform quick printing with respect to the stored image, a link forming unit which searches for at least one image forming apparatus in the vicinity of the printing control apparatus in a wireless communication manner, and forms a wireless communication link with the searched image forming apparatus, a communication interface which transmits the generated profile to the image forming apparatus with which the link is formed, and a controller which controls the communication interface to transmit an image which is requested to be transmitted by the image forming apparatus with which the link is formed in response to the transmitted profile.
US08797570B2
A transmission-side MFP receives a user name, checks whether the user name is registered in a destination user list, and if so, transmits image data to a reception-side MFP. If an ACK is received, the transmission-side MFP displays that transmission was successful. When a NACK is received or a time out occurs, the transmission-side MFP checks whether the user name is registered in an individual address book, and if so, transmits the image data using a corresponding transmission method. If an ACK is received, the transmission-side MFP displays that transmission was successful. If a timeout occurs, the transmission-side MFP displays that transmission failed.
US08797569B2
A printing device includes a receiving system configured to receive printing data including first information, second information and provider-specifying information that specifies a provider of the second information, from an external apparatus; a printing system configured to perform printing based on the printing data received by the receiving system; an obtaining system configured to obtain printing information representing a predetermined parameter regarding printing of the second information performed by the printing system; a storing system configured to store the printing information obtained by the obtaining system and the provider-specifying information corresponding to the printing information; and a sending system configured to send the printing information and the provider-specifying information stored by the storing system to an aggregating server.
US08797551B2
The system disclosed is for optical coherence tomography (OCT). The system includes an improved interferometric system for metrology, detection, ranging as well as imaging system based on optical coherence tomography (OCT). Further, the method provides advancements in detection, imaging of samples in biological, medical, ophthalmic, corneal and retinal diagnosis.
US08797548B2
An apparatus and method for estimating a parameter of interest using values of a beam property from two or more electromagnetic beams that both pass through at least part of an optical displacement device. The apparatus may include a Fabry-Perot interferometer, a collimated light source, and a detection array. At least one mirror of the interferometer may be operably coupled to an element receiving an external stimulus, such as pressure, force, and/or acceleration. The method includes using the apparatus.
US08797535B2
A detection system including a detection assembly to receive emission light emitted from a sample. The detection assembly has a multi-band dichroic member and at least first and second detection devices. The multi-band dichroic member has a transmission/reflection characteristic with first and second transmissive regions and a reflective region along a wavelength spectrum. The dichroic member transmits portions of the emission light that align with the first and second transmissive regions and reflects a portion of the emission light that aligns with the reflective region. The dichroic member includes a single mirror with an incident surface. The incident surface is configured to transmit the portions of the emission light that align with the first and second transmissive regions and configured to reflect the portion of the emission light that aligns with the reflective region.
US08797529B2
A spectrometer design method that corrects aberration by using crossed optical paths and minor alignment, simplifies manufacture by applying the light entrance slit and aperture on opposite sides of a transparent input block, and creates a more compact footprint by placing a 45 degree mirror or right angle prism directly in front of the detector is disclosed.
US08797525B2
A pattern inspection apparatus in accordance with one aspect of the present invention includes a laser light source configured to emit a laser light, an integrator lens configured to input the laser light, and form a light source group by dividing the laser light inputted, a scattering plate, arranged at a front side of an incident surface of the integrator lens, configured to scatter the laser light which is to enter the integrator lens, and an inspection unit configured to inspect a defect of a pattern on an inspection target object where a plurality of figure patterns are formed, by using the laser light having passed through the integrator lens as an illumination light.
US08797523B2
A system and method for determining adverse conditions associated with a chemical indicator in an aquatic environment monitoring system in which reference illumination from an optical reader is used to illuminate a chemical indicator. Response from the reference illumination is used to determine a confidence value that can be part of an analysis associated with a measurement illumination response to produce a confidence adjustment instruction for possible action on the measured response value.
US08797522B2
To enable measurement over a wide dynamic range from weak light quantity to strong light quantity in a light quantity detection device for detecting the light quantity, a detection signal from a photon counting light detector is A/D converted. When the A/D converted detection signal has a preset threshold value or more, the detection signal is transmitted as it is to a number-of-photons calculation circuit in a subsequent stage, and when the detection signal has the threshold value or less, threshold value processing for transmitting a preset reference value to the subsequent stage is performed. In the number-of-photons calculation circuit, the number of photons or the light quantity incident on the photon counting light detector is acquired from the dimension of an acquired detection signal waveform until the light quantity measurement ends.
US08797519B2
A method of measuring the bandwidth of a multi-mode optical fiber using single-ended, on-line and off-line approaches and test configurations. The method includes: transmitting a light signal through the first end of a multi-mode fiber toward the second end of the multi-mode fiber, so that a portion of the light signal is reflected by the second end toward the first end of the multi-mode fiber; and receiving the reflected portion of the light signal at the first end of the multi-mode fiber. The method also includes obtaining magnitude and frequency data related to the reflected portion of the light signal at the first end of the multi-mode fiber; and analyzing the magnitude and the frequency data to determine a bandwidth of the multi-mode optical fiber. The length of the multi-mode fiber may also increase over time during testing.
US08797514B2
A localized dynamic light scattering measurement system includes a beam displacer for splitting an incident beam having two orthogonal linearly polarized beam components with slightly different frequencies into two orthogonal linearly polarized output beams focused onto an object to be measured. The beam displacer cooperates with an iris to collect and recombine scattering beams each reversely backscattered at 180 degrees from the object so as to form a signal beam, which is polarized by a polarizer to produce two polarization components, thereby generating a heterodyne interference signal associated with the polarization components. A signal processing unit obtains measurement data on the object based on power spectrum or autocorrelation data corresponding to the heterodyne interference signal.
US08797511B2
A distance-measuring device for contactless measurement of a distance to an object, including a housing; a contactless measuring apparatus utilizing an optical measuring beam arranged in the housing and having a radiation unit, an optical unit with optical elements encompassing at least a transmitting and receiving lens system, an optical transmitting path with an optical axis for emitting a measuring beam onto the target object, an optical receiving path with an optical axis for receiving a measuring beam that is reflected and/or scattered by the target object. At least one optical element is movable relative to an initial position; a motion sensor detects a movement of the object, the optical element movable out of the initial position into a variable compensation position so that the transmitting path can be stabilized at a spatially fixed position.
US08797501B2
An apparatus which projects a pattern of an original onto a substrate by a projection optical system within a chamber to expose the substrate, comprises a measurement unit which performs measurement to calculate a deformation amount of the original, and a controller which calculates a predicted deformation amount of the original and corrects a projection magnification of the projection optical system so as to correct the predicted deformation amount, based on information representing a relationship between the deformation amount with reference to a shape of the original at a certain temperature and a time for which the original receives exposure light, a deformation amount of the original before exposure determined based on a measurement value obtained by measuring, by the measurement unit, the deformation amount of the original loaded into the chamber and unused for exposure, and the time for which the original receives the exposure light.
US08797499B2
A liquid crystal lens or beam steering device is made by programming alignment surfaces of the LC cell walls using a programming field to align the alignment surface molecules before fixing them. By setting the desired pre-tilt, the lens can operate in the absence of the control field, and power consumption by the control field can be reduced.
US08797498B2
A liquid crystal optical lens including a first and a second device substrate and a liquid crystal layer is provided. A first electrode layer and a plurality of first stacked layers are sequent stacked on the first device substrate. Each first stacked layer has a first opening exposing the first electrode layer and includes a first conductive layer and a first insulating layer located between the first conductive layer and the first electrode layer. A second electrode layer and a plurality of second stacked layers are sequent stacked on the second device substrate. Each second stacked layer has a second opening exposing the second electrode layer and including a second conductive layer and a second insulating layer located between the second conductive layer and the second electrode layer. A method for fabricating the liquid crystal optical lens and a lens apparatus using the liquid crystal optical lens are also provided.
US08797493B2
A thin film transistor liquid crystal display (TFT LCD) panel, comprising an array substrate and a color filter substrate which are bonded together with a sealant, wherein a black matrix and a common electrode are formed on the color filter substrate, a data-line wiring is connected with a patterned pad for data-line signal output after being led out from an display region of the array substrate, a gate-line wiring is connected with patterned pad for gate-line signal output after being led out from the display region of the array substrate, and an opening structure is formed in the black matrix in a region where the color filter substrate overlaps with the data-line wiring.
US08797492B2
A flexible circuit board according to an exemplary embodiment of the present invention includes a flexible base film including a liquid crystal panel bonding part at a side, which is bonded with a liquid crystal panel, a driving integrated circuit at a center of the flexible base film, a plurality of first conductive patterns on the flexible base film and extending from the driving integrated circuit to the liquid crystal panel bonding part, a solder resin layer exposing a first portion of the first conductive patterns, which is disposed on the liquid crystal panel bonding part, and covering a second portion of the first conductive patterns, which is a portion of the first conductive patterns other than the first portion, and a solder resin layer extending part protruding from an edge of the solder resin layer in a direction parallel to a direction in which the first conductive patterns extend.
US08797490B2
A liquid crystal display device including first and second substrates, with a liquid crystal layer sealed therebetween. The device also includes a first electrode formed on the first substrate, a second electrode formed on the second substrate, a first molecule orientation film formed on the first substrate so as to cover the first electrode, a second molecule orientation film formed on the second substrate so as to cover the second electrode, and a plurality of micro structures associated with at least one of the first and second electrodes, wherein at least some of the micro structures extend generally parallel to each other. When a driving voltage is applied between the first and second electrodes, liquid crystal molecules of the liquid crystal layer are oriented such that no dark line occurs in a vicinity of the plurality of micro structures and no dark line occurs between adjacent micro structures.
US08797485B2
A liquid crystal display including first and second substrates arranged opposite to each other to form a gap, with first and second alignment films provided on the first and second substrates, respectively. A cured material is provided on at least one of the first and second alignment films, and a liquid crystal layer of liquid crystal molecules is provided in the gap. The display includes a pixel electrode with a plurality of elongated members arranged with spaces therebetween, wherein the plurality of elongated members are electrically connected to each other, and a common electrode configured to apply a voltage to the liquid crystal layer in cooperation with the pixel electrode. The plurality of elongated members include first, second, third and fourth elongated members extending, respectively, in first, second, third and fourth directions in plan view. The cured material regulates alignment directions of the liquid crystal molecules.
US08797484B2
A display apparatus, in which the entrapment of air bubbles on the inside of the sealing is suppressed, is provided. In a display apparatus including an element member (L) having an adhesion surface on which a display area (1a) is provided, and a sealing member (U) having an adhesion and which is adhered with a resin layer (m) between this adhesion surface and the adhesion surface of the element member (L), it is one in which the resin layer (m) is formed by combining a resin material (M), which is dispersed and applied in a plurality of places on an adhesion surface of at least one of the element member (L) and the sealing member (U), by pressing the element member (L) and the sealing member (U) against each other with the resin material (M) in between.
US08797482B2
According to one embodiment, a liquid crystal display device includes a first substrate including a first insulative substrate, and a first electrode, a second substrate including a second insulative substrate, and a second electrode, a liquid crystal layer held between the first substrate and the second substrate, a first polarizer including a first polarization axis, and a second polarizer including a second polarization, wherein the first polarization axis is substantially parallel or substantially perpendicular to the direction of extension of the first electrode.
US08797477B2
A display includes: a display panel; a front-face member being provided on a front face of the display panel, the front-face member covering a surrounding section, or the surrounding section and other part of the display panel; a back-face member being provided on a back face of the display panel, the back-face member covering the back face, or the back face and other part of the display panel; and an adhesion section adhering the back-face member and the front-face member to each other, the adhesion section covering a circumference section of the display panel.
US08797476B2
A liquid crystal module is disclosed, which comprises a backplate, a circuit board and a circuit board cover-plate. The circuit board is fixed to the backplate, and the circuit board cover-plate is fixed to the backplate by magnetic elements. Furthermore, a display comprising the aforesaid liquid crystal module is further disclosed. The liquid crystal module of the present disclosure has the circuit board cover-plate thereof fixed to the backplate by means of magnetic elements. Therefore, when it is necessary to carry out defect detection and corresponding electrical inspections on the liquid crystal module, the circuit board cover-plate can be opened rapidly to carry out corresponding operations, which is efficient and time-saving.
US08797472B2
A thin film transistor liquid crystal display (TFT-LCD) array substrate comprises a plurality of gate lines and a plurality of data lines on a substrate. A plurality of pixel regions are defined by the gate lines and the data lines. Each of the pixel regions comprises a pixel electrode and a thin film transistor serving as a switch element. The gate electrode of the thin film transistor is connected with a corresponding gate line through a connection electrode, and the gate electrode is formed by a material layer different from that forming the gate lines.
US08797456B2
A network video camera having a dual-joint holder structure includes a lower body cover, a turning base board, a base splint, a base cover, a first turning joint, and a second turning joint. The present invention provides a succinct appearance and a convenient way for adjustment and storage.
US08797449B2
An auto-focusing apparatus detects a speed of a moving object accurately even in a system in which backlash exists in focusing control by performing moving object prediction auto-focusing (AF).
US08797442B2
A method of controlling a digital photographing apparatus, and a digital photographing apparatus, in which a child's face is registered in the digital photographing apparatus, and the child's interest is continuously attracted by using a preferred image and sound of the child. Thus, an inattentive child's interest may be attracted to a camera and thus the child may be photographed while the child is focusing on images displayed on the camera.
US08797439B1
Two or more imagers having associated frame rates are each configured with a global shutter having an exposure interval less than a frame interval. The exposure interval for a first imager is offset from the exposure interval of a second imager such that the first imager is exposed while the second imager is not exposed. When interleaved, an effective frame rate exceeds the individual frame rates provided by the individual imagers. This interleaved imaging system may be used to recover, at high frame rates, images that are projected from spatial light modulators.
US08797438B2
In an imaging apparatus adding image signals output from a sensor array which receives a light flux through an optical system and performs photoelectric conversion thereon, the sensor array being arranged a plurality of light receiving elements two-dimensionally, the imaging apparatus includes a pixel adding unit that divides the light receiving elements on the sensor array into a plurality of groups with a region including predetermined types of pixels as a group unit, and that adds, for each of the types of pixels, image signals output from the pixels included in four of the groups which are positioned “n” groups away from each other on the sensor array.
US08797437B2
A solid-state imaging device 1 includes a light receiving section 10, a first row selecting section 20, a second row selecting section 30, and the like. The first row selecting section 20 causes each pixel unit of any m1-th row in the light receiving section 10 to output data corresponding to an amount of charge generated in a photodiode to a readout signal line L1n. The second row selecting section 30 causes each pixel unit of any m2-th row in the light receiving section 10 to output data corresponding to an amount of charge generated in a photodiode to a readout signal line L2n. The solid-state imaging device 1 causes each pixel unit of any m3-th row in the light receiving section 10 to accumulate charge generated in a photodiode in a charge accumulating section. m1 and m2 are different from each other.
US08797433B2
An image processing apparatus includes an intermediate image generating unit configured to input an image which has been shot with differing exposure times set by region, generates a plurality of exposure pattern images corresponding to differing exposure times based on the input image, and generates a plurality of timing images which are difference images of the plurality of exposure pattern images; and a distortion correction processing unit configured to generate a corrected image equivalent to an exposure processing image at a predetermined exposure time by synthesizing processing of the plurality of timing images.
US08797431B2
Method of controlling the resolution of a hyperspectral image from an image sensor comprising pixels and at least one filter that defines subpixels within each pixel includes defining a window on the image sensor with an array of rows and columns of subpixels; weighting the subpixels within the window based upon one or more predefined parameters of the hyperspectral image to establish a value for a weighted average for the array for the predefined parameters; shifting the window by a predefined number of rows or columns; repeating the weighting and shifting steps for all possible windows on the image sensor; and processing the hyperspectral image based on the weighted averages.
US08797422B2
The present invention can provide solutions to many common imaging problems, such as, for example, unevenly distributed illumination, shadows, white balance adjustment, colored ambient light and high dynamic range imaging. Imaging systems and methods can be provided through a computer (e.g., laptop or desktop) such that the system or method can take advantage of the computer's processing power to provide functionality that goes beyond typical camera. Such an imaging system may include an imaging device, a camera, a light source and a user interface.
US08797417B2
A vehicle is equipped with a camera (which may be a stereoscopic camera) and a computer for processing the image data acquired by the camera. The image acquired by the camera is processed by the computer, and features are extracted therefrom. The features are further processed by various techniques such as object detection/segmentation and object tracking/classification. The acquired images are sometimes contaminated by optical occlusions such as raindrops, stone-chippings and dirt on the windshield. In such a case, the occluded parts of the image are reconstructed by optical flow estimation or stereo disparity estimation. The fully reconstructed image is then used for intended applications.
US08797406B2
A multifacet mirror comprises a catoptric structure configured to reflect light from a first field of view onto an image plane comprising a plurality of sensors, the catoptric structure having a surface comprising a plurality of facets separated by a plurality of catoptric regions; wherein a facet of the plurality of the facets has a second field of view that is smaller than the predetermined field of view; and wherein a catoptric region of the plurality of catoptric regions between two facets of the plurality of facets is configured to reflect light from a world point within the first field of view onto two of the sensors of the plurality of sensors.
US08797403B2
Disclosed herein is an image processing apparatus including an image data acquisition section, a metadata acquisition section, a display section, a filter setting section, and a combination setting section. The image data acquisition section is configured to acquire image data from a camera. The metadata acquisition section is configured to acquire, from the camera, metadata representing information concerning an object of surveillance. The display section is configured to display a setting screen usable for setting a plurality of filters. The filter setting section is configured to perform filter setting using the information of the metadata. The combination setting section is configured to set a combination of the plurality of filters. The filter setting section and the combination setting section are provided on the same setting screen.
US08797398B2
A method and system are provided for inspecting a plurality of target features arrayed in spaced arrangement on a surface of a target object, such as but not limited to inspection of the location of cooling air holes in the surface of a turbine blade or vane.
US08797391B2
A stereo image displaying method adapted to a polarizing panel is provided. The stereo image displaying method includes the following steps. An original first eye image and the original second eye image are received. Each of the odd pixel data rows of the original first eye image is interpolation operated with at least one of two adjacent even pixel data rows of original the first eye image to serve as one of a plurality of pixel data rows of a first eye image of a display frame. Each of the even pixel data rows of the original second eye image is interpolation operated with at least one of two adjacent odd pixel data rows of the original second eye image to serve as one of a plurality of pixel data rows of a second eye image of the display frame. The display frame is applied on the polarizing panel.
US08797389B2
The invention provides: a code generation and data assignment circuit that sets the order in which a confidential image and a reversed image are displayed, based on an orthogonal code; and a shutter glass control signal generation circuit that controls so that during a period when an image signal of an image including at least part or all of the confidential image is outputted, the shutter glasses disposed between the succeeding display apparatus and the user's eyes are set in a light transmission state and during a period when another image is displayed, the shutter glasses are set in a light shielding state. The image signal of the confidential image and the image signal of the reversed image are in a relationship such that when the brightness values of the images are added together for each pixel, the resultant image has no correlation with the first output image.
US08797383B2
The invention relates to a method for the stereoscopic display of a scene on a grid of picture elements (pixels), based on several views that are combined according to a combination rule to form a combination image. The combination image contains only selected parts or pixels of each view. Furthermore, propagation directions are fixed, which make it possible for a viewer to see in the combination image a different selection of views with his left eye than with his right eye, which results in a visual impression of space.Starting from an original view, in which each pixel contains bits of color information and depth information, the other views are generated, with exclusively such bits of color information being determined that belong to pixels of the views which are displayed in the combination image. The determination of the bits of color information is performed with the aid of a relief card Z(x,y).
US08797376B2
A videoconferencing system for enhanced telepresence employs a single wide aspect ratio high resolution camera for capturing video images of near end conference participants. Captured video image can be divided into adjacent portions, where video images corresponding to each portion is separately encoded and sent to a far end videoconferencing system to be displayed on adjacently placed display devices. Misalignment in displayed images at the far end can be mitigated by selecting portions that are non-overlapping and horizontally aligned. Number and size of the portions can be determined based on configuration information of the far end videoconferencing system.
US08797368B2
An organic light-emitting diode (OLED) display device capable of reducing power consumption within a range in which an image quality is not lowered, and a method of driving the OLED display device. The OLED display device includes: an image analyzer for obtaining an emission ratio and a saturation of an input source image, the emission ratio indicating light-emitted degrees of pixels constituting the input source image; an emission ratio adjuster for adjusting the emission ratio according to the saturation; a brightness adjuster for adjusting the brightness of the input source image according to the adjusted emission ratio; a data driver for establishing a data voltage of a data signal corresponding to the input source image based on the adjusted original brightness; and a pixel unit including an organic light-emitting diode (OLED), the pixel unit being configured to establish a driving current according to the data voltage.
US08797367B2
A display device is provided that includes an amount of light emission computation portion that computes an amount of light emission based on a video signal that has a linear characteristic, an amount of light emission parameter computation portion that, based on the computed amount of light emission, computes an amount of light emission parameter that corresponds to the amount of light emission for each of one of one pixel and a group of pixels that includes a plurality of the pixels, an amount of light emission parameter accumulation portion that accumulates the amount of light emission parameters in association with the one of the one pixel and the group of pixels, a peak detection portion that detects a peak value among the accumulated amount of light emission parameters that correspond to all of the one of the one pixel and the group of pixels, a coefficient computation portion that, based on the detected peak value, computes a coefficient that adjusts a luminance, and a coefficient multiplying portion that multiplies the video signal by the computed coefficient and outputs the multiplied video signal.
US08797360B2
Provided is an image display device capable of easily displaying an image depicting the deep side of a point of gaze when an operation to change a pitch angle of a viewpoint is performed by a user. The image display device displays an image rendering a scene viewed from a viewpoint in a virtual space in a line of sight, and performs at least one of a process of moving a position of the viewpoint and a process of changing the line of sight, according to a viewpoint moving operation performed by the user. The image display device also calculates a position of a pitch angle change center point which exists on a straight line extending from the viewpoint in the line of sight, changes the pitch angle of the viewpoint about the pitch angle change center point according to the pitch angle change operation performed by the user, and changes the line of sight so that the line of sight is directed to the pitch angle change center point from the position of the viewpoint with the pitch angle thus changed.
US08797355B2
A method and apparatus adapted to input a position and orientation of a viewpoint in an image in MR space obtained by superimposing a first virtual object to be displayed on a display of a real space; to input a position and orientation of the real object; to calculate an amount of change in a relative orientation between the orientation of the viewpoint and the orientation of the real object; to switch a first virtual object to be displayed to a second virtual object to be displayed which is different from the first virtual object to be displayed when the amount of change exceeds a predetermined threshold; and to output an image in the MR space obtained by superimposing the second virtual object to be displayed on the display of the real space in accordance with the position and orientation of the viewpoint and the position of the real object.
US08797346B2
A gamma correction system and method for a display device are disclosed. According to one aspect, the gamma correction system includes a display panel configured to display an image, a measuring unit configured to acquire optical characteristic information from the image displayed on the display panel, and a display panel driver configured to convert a gamma data result value obtained after performing optical compensation for at least two sample gray values among a plurality of reference luminance values into a corresponding data voltage and calculate a data voltage for the rest of the luminance values for which optical compensation is not performed.
US08797344B2
A display system comprises line buffer memory that stores input image data in a first color space, and a plurality of gamut mapping modules that accept the input image data from the line buffer memory and performs a gamut mapping operation to produce mapped image data specified in a second color space. The system also includes a subpixel rendering module that renders the image data specified in the second color space for display on a display panel substantially comprised of a particular subpixel repeating group. The system architecture utilizes a plurality of gamut mapping modules which in turn allows for a reduction in the size of line buffer memory needed for the subpixel rendering operation.
US08797342B2
A method, apparatus and computer-readable medium for generating a graphical tree based on a hierarchical structure includes receiving a request to convert a first hierarchical structure into a first graphical tree. Each of a plurality of elements of the first hierarchical structure, and the relationships among the plurality of elements are identified. A first graphical tree is generated based on each of the plurality of elements and the relationships among the elements. The first graphical tree is then displayed. Additional graphical trees can be displayed simultaneously and associations between nodes of the different graphical trees can be designated.
US08797340B2
A system, method, and computer program product are provided for modifying a pixel value as a function of a display duration estimate. In use, a value of a pixel of an image frame to be displayed on a display screen of a display device is identified, wherein the display device is capable of handling updates at unpredictable times. Additionally, the value of the pixel is modified as a function of an estimated duration of time until a next update including the pixel is to be displayed on the display screen. Further, the modified value of the pixel is transmitted to the display screen for display thereof.
US08797339B2
Some embodiments provide a system that executes a web application. During operation, the system loads the web application in a web browser and loads a native code module associated with the web application into a secure runtime environment. Next, the system writes a set of rendering commands to a command buffer using the native code module and concurrently reads the rendering commands from the command buffer. Finally, the system renders an image for use by the web application by executing the rendering commands using a graphics-processing unit (GPU).
US08797338B2
A method for platform agnostic screen capture is provided. The method includes acquiring screen data from a computer having a display screen, where the screen data represents an image currently displayed on the display screen. The screen data is converted into a representation capable of being expressed in a plurality of software platforms. The representation of screen data is rendered into a vector graphics file that may be published to a plurality of platforms.
US08797323B2
A dynamic volumetric medium, such as hair, fog, or smoke, may be represented, for purposes of shadow mapping, by transmittance versus depth data for that medium. In one embodiment, the representation may take the form of a plot of transmittance versus depth, with nodes where the transmittance changes non-live linearly with respect of depth into the medium. The number of nodes in the representation may be reduced to reduce memory footprint and to enable the storage of the representation on the same chip doing the shadow mapping. In some embodiments, the number of nodes may be reduced, one node at a time, by removing the node whose underlying trapezoid has the least area of all the remaining nodes.
US08797313B2
In at least one embodiment of the disclosure, a driving device for a discharge lamp includes an alternating current supply section and a frequency modulation section. The alternating current supply section supplies two electrodes of the discharge lamp with an alternating current. The alternating current comprises a plurality of modulation periods. The frequency modulation section modulates a frequency of the alternating current so as to provide a plurality of retentive periods within each of the modulation periods. Each retentive period has a constant frequency that is different from a frequency of its temporally adjacent retentive periods. The frequency modulation section shortens a length of at least one of the retentive periods in the modulation period in response to a predetermined condition occurring. The frequency of at least one of the retentive periods is equal to or less than a predetermined reference frequency.
US08797312B2
Disclosed herein is a display apparatus, including, a pixel array section including a plurality of pixels disposed in rows and columns, and a number of power supply lines and scanning lines equal to the number of the rows of the pixels, each of the power supply lines being wired commonly to those of the pixels which are juxtaposed in a direction of a row.
US08797297B2
Disclosed is a liquid crystal display device (1) that is provided with a function of identifying the position of a subject to be detected (finger) in an image display region (12b) of a liquid crystal panel (10) by emitting light to the image display region (12b) and by detecting light reflected by the subject to be detected (finger). The liquid crystal display device is provided with a backlight (30) and a front light-emitting unit (40), which radiate light to the image display region (12b). The backlight (30) is disposed on the side of the liquid crystal panel (10) opposite to the image display surface (10a), and emits light to the image display region (12b) from the rear side of the liquid crystal panel (10). The front light-emitting unit (40) is disposed outside of the image display region (12b), and emits light to the image display region (12b) without having the liquid crystal panel (10) therebetween. With such a configuration, even when the subject to be detected and the display panel are apart from each other, the position of the subject to be detected can be accurately identified.
US08797295B2
Electronic devices may use touch pads that have touch sensor arrays, force sensors, and actuators for providing tactile feedback. A touch pad may be mounted in a computer housing. The touch pad may have a rectangular planar touch pad member that has a glass layer covered with ink and contains a capacitive touch sensor array. Force sensors may be mounted under each of the four corners of the rectangular planar touch pad member. The force sensors may be used to measure how much force is applied to the surface of the planar touch pad member by a user. Processed force sensor signals may indicate the presence of button activity such as press and release events. In response to detected button activity or other activity in the device, actuator drive signals may be generated for controlling the actuator. The user may supply settings to adjust signal processing and tactile feedback parameters.
US08797293B2
An electronic device and a method for inputting information through touch input device of an electronic device is provided. The method inputs information including at least one of symbols and characters through touching of a screen displayed on the touch input device, and executes a specific application capable of processing the input information.
US08797288B2
A method is provided for a user interface recognizing the interruption of the execution of a first gesture with the execution of a second gesture. Measured information responsive to user interaction actions made by a user is received from a user interface sensor. At least one operation is applied to the measured information to produce a sequence of symbols or gestemes. The sequence of symbols is first used to determine that the user's execution of a first gesture has been interrupted. The sequence of symbols is used to determine that the user's execution of a second gesture has been started and completed resuming the first gesture. The sequence of symbols is used to determine that the user's execution a first gesture has been completed. Both the first and second gestures are recognized. Semantic content can be assigned to the existence of and various details regarding the interruption and gestures involved.
US08797277B1
A method of estimating multiple touch positions on a touch sensor array, based on centroids calculated in the vicinity of a local maxima determined for the touch sensor array.
US08797271B2
The aggregation of multiple inputs in a touch-sensitive input device is disclosed. For example, one disclosed embodiment comprises receiving multiple inputs related to a virtual object, aggregating the inputs into an aggregated output, and providing the aggregated output to an application that controls the virtual object.
US08797264B2
Predetermined image processing is performed in accordance with an input operation performed by an input device having image pickup means for taking an image of one or a plurality of imaging targets. Target image data, which is obtained from one target image of the one imaging target or a plurality of target images of the plurality of imaging targets in the image taken by the image pickup means and which indicates a distance between the plurality of target images or a size of the one target image, is sequentially obtained. A display image is enlarged and reduced in accordance with a change in the target image data. Then, the display image processed in such a manner is displayed on a display device.
US08797253B2
In an LCD device, picture quality luminance is controlled through the combination of pulse-width modulation (PWM) system and current value control system, reducing the electrical power consumption associated with turning on an LED. In the LED backlight, the light emitting luminance of the LED is controlled by both PWM and also by current value control, which selects the value of the current supplied to the LED from a plurality of set values. At least one of the plurality of set values is a predetermined current value at which duty reaches a maximum value at the maximum luminance value used in a specified picture quality mode of the picture quality modes established in the liquid crystal display device. In the aforementioned specified picture quality mode, the greatest luminance value to be used is smaller than at least the greatest luminance value used in other specified picture quality modes.
US08797249B2
A thin-film transistor (TFT) array structure and a liquid crystal display (LCD) panel thereof are described. The TFT array structure includes a plurality of scan lines, a plurality of first data lines, a plurality of second data lines, a plurality of pixel units and a plurality of control module. Each of the control modules is coupled among the scan line, one second data line and one pixel unit. The second data line charges the later control module when the scan line is selected to be activated for charging the pixel unit by the first data line. The charged later control module charges another pixel unit when the scan line is inactivated and another scan line is selected to be activated for charging another pixel unit by the first data line. The TFT array structure can reduce the charging duration of the pixels.
US08797243B2
A method of driving a liquid crystal display device includes supplying data voltages to a pixel on a moving path of an image during a scroll operation, wherein the data voltages displaying the image have opposite polarities.
US08797241B2
A scan driving circuit includes a shift register unit and a logic circuit unit. The start of a start pulse of an output signal STp+1 of a p+1'th shift register is situated between the start and end of a start pulse of the output signal STp of a p'th shift register, and one each of a first enable signal through a Q'th enable signal exist in sequence between the start of the start pulse of the output signal STp and the start of the start pulse of the output signal STp+1. The operations of a (p′, q)'th NAND circuit are restricted based on period identifying signals, such that the NAND circuit generates scanning signals based only on a portion of the output signal STp corresponding to the first start pulse, the signal obtained by inverting the output signal STp+1, and the q'th enable signal ENq.
US08797237B2
A plasma display apparatus and method are provided. The plasma display apparatus includes a plasma display panel in which first electrodes and second electrodes are arranged adjacently and third electrodes are arranged to cross the first and second electrodes. The method for driving a plasma display apparatus in which first electrodes and second electrodes are arranged adjacently and third electrodes are arranged to cross the first and second electrodes and in which one field comprises subfields having a reset period followed by an address period and a sustain period includes in a reset period, applying to second electrodes a voltage of a first waveform in which an applied voltage value increases according to a lapse of time and applying to second electrodes a voltage of a second waveform in which an applied voltage value decreases according to a lapse of time.
US08797231B2
To overcome issues generated due to the light-shield part in a display device which displays different images towards a plurality of viewpoints, and to provide a device for easily synthesizing images to be displayed on a display part. A display controller includes: an image memory which stores viewpoint image data for a plurality of viewpoints; a writing control device which writes the viewpoint image data inputted from outside to the image memory; a parameter storage device which stores parameters showing a positional relation between a lenticular lens and the display part; and a readout control device which reads out the viewpoint image data from the image memory according to a readout order obtained by applying the parameters to a repeating regulation that is determined based on layout of the sub-pixels, number of colors, and layout of the colors, and outputs it to the display module as synthesized image data.
US08797225B2
An antenna device includes a plate-shaped radiating element, a frame-shaped radiating element arranged to surround the plate-shaped radiating element, and a feeding unit that includes a feeding circuit and a frequency stabilizing circuit and that is connected between the plate-shaped radiating element and the frame-shaped radiating element. The plate-shaped radiating element and the frame-shaped radiating element are connected to the feeding circuit through the frequency stabilizing circuit as a result of a first terminal portion of the frequency stabilizing circuit being connected to the frame-shaped radiating element, a second terminal portion of the frequency stabilizing circuit being connected to the plate-shaped radiating element, and a third terminal portion of the frequency stabilizing circuit being connected to the feeding circuit.
US08797213B2
Methods and systems for estimating an angle of arrival are provided. In an embodiment, a system for estimating angle of arrival includes a snapshot determining module configured to receive a signal from each antenna of an antenna array and to generate a snapshot vector including values based on the signals and an angle of arrival processing module configured to estimate an angle of arrival for the electromagnetic signal relative to the antenna array based on the snapshot vector. Each signal is representative of an electromagnetic signal incident on a respective antenna of the antenna array and each value is representative of a phase of a respective signal.
US08797212B1
A plurality of received signals are received at a first communication device, the plurality of received signals corresponding to at least one training signal having been transmitted by a second communication device a plurality of times via a plurality of antennas by the second communication device applying a respective antenna weight vector from a plurality of different antenna weight vectors each time the at least one training signal is transmitted. The first communication device generates a transmitter antenna weight vector based on a mathematical combination of at least i) the plurality of received signals, ii) the antenna weight vectors applied by the second communication device when transmitting the at least one training signal the plurality of times, and iii) the at least one training signal. The first communication device transmits the transmitter antenna weight vector to the second communication device.
US08797194B2
One embodiment includes a phase-based analog-to-digital converter (ADC) system. The system includes a voltage-to-phase converter configured to convert an input voltage to a phase difference corresponding to a phase-delay with respect to an input clock signal that is based on a magnitude of the input voltage. The system also includes a phase-to-digital converter configured to convert the phase difference into a digital output signal having a digital value corresponding to a magnitude of the phase difference.
US08797190B2
A method for selecting and displaying a flight path for an aircraft on a display of a flight deck of the aircraft that allows a user to input a selected flight path on a map displayed on the display. A final flight path will be displayed on the display of the flight deck that is based on the input of the selected flight path.
US08797186B2
A parking assistance system is described for assisting in a parking operation of a vehicle when a plurality of parking spaces is present. A method in a parking assistance system includes performing the following: detecting a plurality of parking spaces; selecting one of the detected parking spaces based on a degree of comfort; and assisting in the parking operation into the selected parking space. The degree of comfort includes at least one predefined condition, on the basis of which the detected parking spaces are classifiable according to the presumed driver acceptance.
US08797169B1
A system for sensing and indicating orientation of electrical equipment comprises an orientation sensor and control logic. The control logic is configured to compare predefined data with an orientation of the electrical equipment sensed by the orientation sensor in order to determine whether the sensed orientation of the equipment is within an acceptable range such that sufficient cooling by a cooling system is likely to occur. If the sensed orientation of the equipment is not within the acceptable range, the control logic transmits a notification signal so that corrective action can occur. As an example, the notification signal may be used to notify a user of the improper orientation. In another example, the notification signal automatically triggers an action that compensates for the improper orientation.
US08797163B2
The invention relates to a transponder unit (1) and to a method for transmitting data between the transponder unit and a reader (100). The aim of the invention is to increase the transmission range of the transponder unit (1) to the reader (100). For this purpose, means are integrated into the transponder unit (1) for actively transmitting a signal to the reader (100). The reader (100) evaluates said signal as a modulation of its own field (110) by a transponder.
US08797162B2
A detection unit positioned on a package includes a magnet, a first magnetic switch, a second magnetic switch, a processor, and a clock. The first magnetic switch outputs a first control signal or a second control signal according to magnetic flux density of the magnet. The second magnetic switch outputs a third control signal or a fourth control signal according to the magnetic flux density of the magnet. The first control signal is the same as the third control signal; the second control signal is the same as the fourth control signal. When the processor receives the first control signal and the third control signal at the same time, the processor reads a first real-time clock (RTC) signal from the clock. When the processor receives the second control signal and the fourth control signal at the same time, the processor reads a second RTC signal from the clock.
US08797158B2
An emergency notification system is provided. The emergency notification system comprises an emergency notification server (206), a signage server (202), digital signage displays (208); and a data communications network (134), wherein the emergency notification server (206) is configured to communicate with the signage server (202) via the data communications network (134) and wherein the emergency notification server (206) is configured to indicate if the emergency notification system (100) is in a non-emergency state or in an emergency state, and wherein the signage server (202) serves different data to the plurality of digital signage displays (208) depending on if the state of the emergency notification system (100) is in a non-emergency state or in an emergency state.
US08797157B2
A system and method for monitoring usage and predicting failure of visual notification appliances are disclosed. The visual notification appliances may be strobe lights, which can be provided with an internal counter circuit that obtains a cumulative tally of the number of times the strobe has flashed. Since strobe service life is directly proportional to the number of flashes, monitoring the number of flashes enables proactive repair or replacement of the strobe prior to failure. Flash counts can be stored in the appliance and periodically transmitted to a remote location such as a fire panel or remote monitoring center. Flash counts can also be locally displayed, or can be readable by a user with a handheld device. Alarms or other indications may automatically be generated to alert building or service personnel when an end of life condition is approaching for one or more strobes. Other embodiments are disclosed and claimed.
US08797156B1
In some embodiments, techniques comprise receiving route data that includes information relating to a stop, at a portable device that is personal to a passenger on a public conveyance; determining a second destination; determining a first destination that is related to the stop, wherein the first destination is a transfer destination en route to the second destination; determining a current location of the portable device; determining, based at least in part on the current location, that the portable device has nearly reached the first destination; providing a first alert at the portable device; determining a second current location; determining that the second current location is related to the second destination; and providing a second alert.
US08797155B2
A method of communicating medical sensing data including receiving, at a patient communication system, medical sensing data collected by a medical sensing device during a medical sensing procedure. The method also includes creating, with the patient communication system, a data message, the data message including at least a portion of the medical sensing data, information about the medical sensing procedure, and information about the medical sensing data and transmitting, with the patient communication system, the data message to a centralized computing device over a data network.
US08797151B2
There is provided a remote commander including an input section which accepts input of operation information from a user, a communication section which communicates with a control target device via a radio signal, a service information-acquisition section which acquires, from the control target device via the communication section, service identification information for identifying each of one or a plurality of services which the control target device is capable of providing the remote commander with, and a notification section which selects any of one or a plurality of pieces of the service identification information acquired by the service information-acquisition section based on the operation information, the input of which is accepted by the input section, and which notifies the control target device of the selected service identification information via the communication section.
US08797149B2
A state-based remote control system for providing efficient and simple operation of a plurality of electronic devices as a coordinated system based upon an overall task. The state-based remote control system includes a housing, a keypad in communication with an electronic system contained within the housing, and a communication device in communication with the electronic system for communicating with external electronic devices. The electronic system monitors the buttons selected by a user to determine the state of all external electronic devices that are to be controlled. When the user selects a task (e.g. watch television), the electronic system automatically determines the actions required to achieve the desired task based upon the current state of the external electronic devices. After the task has been fulfilled, the electronic system updates the data to reflect the modified state of the external electronic devices.
US08797141B2
A reverse RFID location system is based on set of RFID tags in which each tag stores data representing its position.
US08797131B2
A thermal shield and method for thermally cooling a magnetic resonance imaging (MRI) system are provided. One thermal shield includes a cooling tube forming a frame. The cooling tube is configured to receive therethrough cryogen fluid from a cryogen vessel of an MRI system. The thermal shield further includes at least one thermal control layer surrounding the frame and together with the frame is configured to provide thermal shielding of the MRI system.
US08797127B2
The present disclosure provides in one embodiment, a semiconductor device that includes a MEMS switch having a substrate, a first dielectric layer disposed above the substrate, and a bottom signal electrode, a bump, and a bottom actuation electrode disposed above the first dielectric layer. The MEMS switch further includes a second dielectric layer enclosing the bottom signal electrode, and a movable member including a top signal electrode disposed above the bottom signal electrode and a top actuation electrode disposed above the bottom actuation electrode and the bump, wherein the top actuation electrode is electrically coupled to the bump. A method of fabricating a MEMS switch is also disclosed.
US08797126B2
The present invention relates to a tunable microwave arrangement (100) comprising a waveguide arrangement and tuning elements comprising a number of varactors for tuning an electromagnetic signal input to the waveguide arrangement. It comprises a substrate (1), a layered structure (20) comprising at least two conducting layers (2,3) and at least one dielectric layer (4) which are arranged in an alternating manner. The layered structure is arranged on the substrate (1) such that a first of said conducting layers (2) is closest to the substrate (1). It also comprises at least one surface mounted waveguide (5), a second of the conducting layers (3), most distant from the substrate, being adapted to form a wall of the surface mounted waveguide (5), which wall incorporates said tuning elements which are arranged to enable control of surface currents generated in said wall, hence loading the waveguide (5) with a tunable, controllable impedance.
US08797124B2
Various exemplary embodiments relate to a support assembly for a planar filter. The assembly includes a u-shaped housing with angled surfaces at the inner corners of the u-shape, a first dielectric plate having a first angled surface in contact with one of the angled surfaces of the housing, a second dielectric plate having a second angled surface in contact with the other angled surface of the housing, at least one compressible ring, and a cover. The planar filter is supported between the first dielectric plate and the second dielectric plate. The cover compresses the compressible ring to apply downward force on the first and second dielectric plates. The downward force is translated to an inward force by the angled surfaces of the housing. The angled surfaces of the housing apply an inward force on the first dielectric plate and the second dielectric plate.
US08797119B2
Methods for tuning a tunable matching network can involve comparing a source impedance of a source to a real part of a load impedance of a load. Depending on characteristics of the network, capacitances of one or more tunable capacitors can be set to correspond to device boundary parameters, and capacitances of remaining tunable capacitors can be set based on a predetermined relationship between the parameters of the capacitors, the source, the load, and other components. From these initially determined values, the capacitance value of one or more of the capacitors can be adjusted to fall within device boundary conditions and achieve a perfect or at least best match tuning configuration.
US08797118B2
A first passive component includes one unbalanced line having one unbalance input terminal, one balanced line installed opposite to the unbalanced line and having two balanced output terminals (first balanced output terminal and second balanced output terminal), and a capacitor formed between the balanced line and a fixed potential (e.g. the ground potential). Furthermore, the relation d1>d2 is satisfied, where d1 is the physical length of the unbalanced line and d2 is the physical length of the balanced line.
US08797113B2
A power amplifier comprises: polar modulator that receives modulated signal including amplitude-modulated component and phase-modulated component, outputs the amplitude-modulated component, superimposes the modulated signal on carrier wave to generate signal output as RF-modulated signal, and delays at least one of the amplitude-modulated component and the RF-modulated signal; first amplitude modulator that receives the amplitude-modulated component, pulse-modulates the amplitude-modulated component to generate signal output as pulse-modulated signal, and amplifies the amplitude-modulated component with the amplitude-modulated component and the pulse-modulated signal as control signals; second amplitude modulator that receives the amplitude-modulated component and the pulse-modulated signal, and amplifies the amplitude-modulated component with the amplitude-modulated component and the pulse-modulated signal as control signals; and first RF amplifier that receives the RF-modulated signal, amplifies the RF-modulated signal, and amplitude-modulates the amplified RF-modulated signal with output signal of second amplitude modulator.
US08797110B2
A system for managing a reference clock signal includes an XO; a signal buffer coupled to the XO and configured to drive a reference clock signal generated by the XO; and a first IC coupled to the signal buffer. The first IC includes an XO input buffer configured to receive the reference clock signal, to switch between an enabled, operational state and a disabled state, and to have a first operational impedance while in the enabled state; an impedance equivalence circuit configured to be in an enabled, operational state when the XO input buffer is in its disabled state and vice versa and to have a second operational impedance while in the enabled state that is equivalent to the first operational impedance; and a control mechanism configured to switch the XO input buffer and the impedance equivalence circuit between the enabled state and the disabled state.
US08797104B2
A low-noise amplifier includes a first transistor having a gate configured to receive an oscillating input signal and a source coupled to ground. A second transistor has a source coupled to a drain of the first transistor, a gate coupled to a bias voltage, and a drain coupled to an output node. At least one of the first and second transistors includes a floating deep n-well that is coupled to an isolation circuit.
US08797103B2
Apparatus and methods for capacitive load reduction are disclosed. In one embodiment, a power amplifier system includes an envelope tracker configured to provide a supply voltage to a plurality of power amplifiers. The power amplifiers include power supply inputs electrically connected in a star configuration so as to reduce a capacitive load of the envelope tracker. The distributed capacitance of the power amplifiers is used to provide RF grounding so as to reduce the size of or eliminated the use of bypass capacitors.
US08797100B2
Circuit unit (CU) comprising a heterojunction bipolar transistor and a long-gate pseudomorphic high-electron-mobility transistor. Either a source (S) or a drain (D) of the long-gate pseudomorphic high-electron-mobility transistor is electrically coupled with either a collector (C) or an emitter (E) of the heterojunction bipolar transistor.
US08797098B2
A method may include applying an input differential voltage to input terminals of an amplifier, a first input terminal coupled to a gate of a first transistor and a second input terminal coupled to a gate of a second transistor. The method may also include varying a gain of the amplifier by varying at least one of: a resistance of a first resistor, the first resistor coupled between a source of the first transistor and a source of the second transistor; and a resistance of a second resistor, the second resistor coupled between a source of a third transistor and a source of a fourth transistor; wherein: the third transistor is coupled at its drain to the drain of the first transistor; and the fourth transistor is coupled at its drain to the drain of the second transistor and a gate of the third transistor and coupled at its gate to the drain of the third transistor.
US08797096B2
Structures and methods are provided for reducing or eliminating crosstalk in devices. Based on a predetermined compensation schemes, a compensation scheme is selected that minimizes the deviation of the non-aggressed victim signal caused by one or more aggressor signals. Instances of a compensation circuit corresponding to the selected compensation scheme are placed along a victim signal line at locations defined by the compensation scheme.
US08797092B2
An embodiment of a discharge circuit for evacuating electric charge accumulated in circuit nodes of a charge pump during a discharge phase consequent to a shutdown of the charge pump is proposed. The charge pump is configured to bias each circuit node with a corresponding pump voltage during an operational phase of the charge pump. The discharge circuit includes a generator circuit configured to generate a discharge current during the discharge phase. The discharge circuit further includes means for evacuating the electric charge stored in each circuit node of the charge pump during a corresponding portion of the discharge phase; such means for evacuating include a respective discharge stage for each circuit node of the charge pump. Each discharge stage includes a first discharge circuit branch and a second discharge circuit branch coupled to the corresponding circuit node. The discharge stage is configured to cause the discharge current flowing through the first discharge circuit branch—during the portion of the discharge phase of the corresponding circuit node—when the pump voltage of the corresponding circuit node is higher than a respective threshold, and through the second discharge circuit branch when the pump voltage of the corresponding circuit node is lower than said respective threshold.
US08797090B1
A charge pump circuit is disclosed. The charge pump circuit comprises a transfer capacitor receiving a first clock phase and a driving capacitor receiving a second clock phase, the second clock phase opposite to the first clock phase. The circuit includes a first switch coupling an input node to the transfer capacitor. The first switch being controlled by the driving capacitor. The circuit further includes a second switch coupling the input node to the driving capacitor. The second switch being controlled by the transfer capacitor. The circuit also includes a third switch coupling the transfer capacitor to an output node. The third switch being controlled by the driving capacitor. The third switch operating in phase opposition to the first switch. The circuit finally includes a charge storage capacitor coupled to the output node.
US08797082B2
A system and method for efficiently performing timing characterization of high-speed clocks signals with low-speed input/output pins. An integrated circuit includes a clock generator that generates a high-speed clock signal. A clock characterizer circuit receives the high-speed clock signal. The clock characterizer generates a corresponding low-speed clock signal. The generated low-speed clock signal is output through a low-speed general-purpose input/output (GPIO) pin for measurement. The generated low-speed clock signal is sent to a sequential element for staging. The staging of the generated low-speed clock signal is done with sequential elements that use a reverse polarity of a clock signal than the polarity used by a previous stage. The high-speed clock signal is used for the staging. The output of each stage is sent to a low-speed GPIO pin for measurement.
US08797081B2
The circuit for the clocking of an FPGA comprises an FLL-circuit; a reference clock of a first frequency, or a reference clock input for the reception of a signal of a reference clock of a first frequency; and a digitally controlled oscillator, which outputs a clocking signal for the FPGA, wherein the FLL-circuit is designed in order to register a first number of clocking signals from the digitally controlled oscillator during a second number of periods of the reference clock, the first number is larger than the second number, and, in order to give out a feedback signal to control the ratio between the first number and the second number, as the feedback signal acts on the frequency of the digitally controlled oscillator.
US08797078B2
The invention pertains to a latch circuit comprising a sensing arrangement with one or more sensing transistors adapted to sense an input signal and to provide a first signal based on the sensed input signal, and a sensing arrangement switch device connected or connectable to a first current source, the sensing arrangement switch device being adapted to switch on or off a current to the one or more sensing transistors based on a first clock signal. The latch circuit further comprises a storage arrangement with one or more storage transistors adapted to store the first signal and to provide a second signal based on the first signal, and a storage arrangement switching device connected or connectable to the first current source or a second current source, the storage arrangement switching device being adapted to switch on or off a current to the storage transistors based on a second clock signal, as well as a tuning arrangement connected or connectable to a temperature sensor, the tuning arrangement being adapted to bias a current of the sensing arrangement and/or the storage arrangement based on a temperature signal provided by the temperature sensor. The invention also pertains to a flip-flop circuit with two or more latch circuits and a frequency divider comprising at least one latch circuit as described.
US08797074B2
Disclosed herein is a device that comprises a delay line delaying a first clock signal in response to the delay control information to produce a delayed clock signal, a phase detector unit controls the delay control information in response to a relationship in phase between the first clock signal and a second clock signal, and an inverting control unit receiving the delayed clock signal and producing a third clock signal, the second clock signal being produced in response to the third clock signal. The third clock signal is in phase with the delayed clock signal when the inverting control unit is in a first state and complementary to the delayed clock signal when the inverting control unit is in a second state.
US08797069B2
High-speed RF differential, Quadrature, divide-by-2 clock divider designs are based on inverters and clocking circuits connected in a serial ring formation. In one embodiment, only NMOS transistors are used in the inverters, and only PMOS transistors are used in the clocking circuits. This structure uses only 12 transistors. The input can be coupled directly to a VCO output, and provides minimum loading, as each VCO output is connected to only two transistors. Another embodiment comprises clocked inverter stages connected in a serial ring configuration with inverters between stages. The RF clock (or VCO signal) is used at the outer side of the inverters for speed improvement. In both circuits, positive and negative clock inputs are connected alternately at each stage of the ring.
US08797068B2
An input/output sense amplifier is configured to amplify data inputted through a pair of local transmission lines in response to a sense amplifier enable signal and a test mode signal, output the data through a global transmission line, generate a control signal by sensing whether the data have been amplified, and halt amplification of the data in response to the control signal when amplification is completed.
US08797067B1
A circuit, set forth by way of example and not limitation, includes a signal detector operative to detect two types of signals, where the two types of signals include a higher-frequency signal and a lower-frequency signal. The signal detector is operative to detect that a received input signal is one of the two types of signals. An output driver is operative to receive the input signal and to adjust conditioning performed on the input signal to create an output signal for transmission over a communication channel, where the adjustment is based on the detection by the signal detector.
US08797054B2
Timing, power and SPICE analysis are performed on a circuit layout, based on temperature and stress variations or gradient across the circuit layout. Specifically, the temperature and stress values of individual window locations across the layout are used to obtain temperature and stress variation aware resistance/capacitance (RC), timing, leakage and power values. In addition, in 3D integrated circuits (IC), the stress and thermal variations or gradients of one die may be imported to another die located on a different tier.
US08797052B2
A thermal gradient is induced in a device-under-test (DUT) and used to determine the location of a defect. In one embodiment, a laser creates a moving thermal gradient from a test site on the DUT and a respective time of flight for the thermal gradient to trigger a condition associated with the defect is determined. Repeating the time of flight testing at additional test site provides information used to trilaterate the defect in three dimensions. Alternately, a static thermal gradient is induced across at least a portion of the DUT along a first axis. The thermal gradient is incrementally walked along the first axis until the condition associated with the defect is triggered, thereby defining a first region. The thermal gradient is then induced along a second axis of the DUT and the process is repeated to define a second region. The location of the defect is determined to be the intersection of the first region with the second region.
US08797040B2
The invention relates to a method for determining a characteristic status parameter of a memory unit via an electric circuit arrangement. In the circuit arrangement at least one inductive component and at least one capacitive component are arranged, forming a tuned circuit with the memory unit. The method has the following steps of energizing the tend circuit by temporary charging of the capacitive component, the energizing being carried out by an energizing device electrically supplied by the memory unit, and determining a time-dependent voltage change at the capacitive component after terminating the energizing and determining the characteristic status parameter from the time-dependence of the voltage change. The invention further relates to a corresponding electrical circuit arrangement and an electrical memory, including such a circuit arrangement.
US08797037B2
A method of approximating or determining at least one dimension or other characteristic of at least one underground geological feature in a zone of interest proximate to a well bore includes generating an electric field in the zone of interest. At least two sensing electrodes are provided in the well bore and configured to detect differences therebetween in electric potential caused by at least one target object in the zone of interest. Proppant containing signal generating devices (SGD) is delivered into the geological feature(s). The SGD generate a detectable signal in response to at least one downhole condition or property. At least one receiver receives the detectable signals and provides data relating thereto. At least one dimension or other characteristic of the geological feature is approximated or determined based at least partially upon data provided by the sensing electrodes and receiver(s).
US08797031B2
A system provides B1- and B0-insensitive, blood flow and motion-robust T2-preparation and T2-preparation combined with inversion recovery. An MR imaging system discriminates between imaged tissue types based on transverse relaxation time (T2) or transverse relaxation time combined with longitudinal recovery time (T1). A signal generator generates a pulse sequence for T2 preparation or combined T2-preparation with inversion recovery comprising one or more B1 independent refocusing (BIREF-1) pulses for refocusing of magnetization of an anatomical region of interest being imaged, and different combinations of adiabatic or non-adiabatic tip-down and flip-back pulses. Multiple RF coils transmit RF pulses in response to the pulse sequence and acquire RF data in response to transmission of the RF pulses. A processing system processes the RF data to provide a display image indicating different tissue types with enhanced discrimination based on T2 relaxation time difference or combined T2 and T1 time difference.
US08797020B2
Electrical current sensor comprising a measuring circuit (6) and an inductor (4) for measuring a primary current IP flowing in a primary conductor (2), the inductor comprising a saturable magnetic core (10) made of a highly permeable magnetic material and a secondary coil (12) for carrying an alternating excitation i configured to alternatingly saturate the magnetic core, the coil being connected to the measuring circuit. The measuring circuit is configured to supply a positive or negative voltage to the inductor, to switch off the voltage when a condition signalling saturation is reached, to measure the time to saturation t1 in one direction and the time to saturation t2 in the other direction of the magnetic core and determine therefrom a value of the primary current for small current amplitudes, the measuring circuit being further configured for evaluating the average value of the excitation current i and determining therefrom the value of the primary current for large currents.
US08797005B2
A boost converter is disclosed in the present disclosure. The boost converter includes a switching element, a first diode, a second diode, a first inductor, a second inductor, a DC voltage input terminal and a DC voltage output terminal. The first inductor, the second inductor and the second diode are connected in sequence between the DC voltage input terminal and the DC voltage output terminal. The second diode has an anode connected to the second inductor and a cathode connected to the DC voltage output terminal. The switching element includes a first end, a second end and a third end for controlling connection or disconnection between the first end and the second end. The first end is connected between the first and the second inductor. The boost converter of the present disclosure is convenient to use and features high inductance coupling efficiency.
US08796999B2
Exemplary embodiments are directed to wireless power transfer to simultaneously recharge power to more than one device and a user interface for setting charging duration. A method of operating a wireless receiver may comprise receiving wireless power with a receive antenna and conveying power from the receive antenna to a chargeable element. The method may further include electrically isolating the receive antenna from the chargeable element upon detecting that the chargeable element is fully-charged.
US08796996B2
A charge control circuit includes a charge control unit that controls an operation of a charging unit that charges a rechargeable battery; and a voltage detection unit that detects a terminal voltage of the rechargeable battery, wherein when a terminal voltage of the rechargeable battery as detected by the voltage detection unit is lower than a predetermined first threshold-value voltage, being lower than a full-charge voltage which is a terminal voltage of the rechargeable battery in full charge, the charge control unit causes a constant current charging to the rechargeable battery by requesting the charging unit to supply a charging current of a predetermined first current value, causing the charging unit to supply a charging current of the first current value to the rechargeable battery, when the terminal voltage of the rechargeable battery as detected by the voltage detection unit exceeds the first threshold-value voltage but is less than the full charge voltage, the charge control unit causes the constant current charging to the rechargeable battery by requesting the charging unit to supply a charging current of a second current value that is smaller than the first current value, causing the charging unit to supply a charging current of the second current value to the rechargeable battery, and when the terminal voltage of the rechargeable battery as detected by the voltage detection unit is equal to or greater than the full charge voltage, the charge control unit causes a constant voltage charging to be carried out by causing the charging unit to supply the full charge voltage to the rechargeable battery, as a charge voltage.
US08796990B2
A method and apparatus for hands free inductive charging of batteries for an electric vehicle is characterized by the use of a transformer having a primary coil connected with a charging station and a secondary coil connected with a vehicle. More particularly, the when the vehicle is parked adjacent to the charging station, the primary coil is displaced via a self alignment mechanism to position the primary coil adjacent to the secondary coil to maximize the inductive transfer of charging current to the secondary coil. The self alignment mechanism preferably utilizes feedback signals from the secondary coil to automatically displace the primary coil in three directions to position the primary coil for maximum efficiency of the transformer.
US08796986B2
A battery management system of a vehicle utilizing electrical energy and a driving method thereof is provided. The battery management system includes a sensing unit and a main control unit (MCU). The sensing unit detects voltage of a battery cell. MCU determines an operation state of a vehicle, and generates a sampling signal depending on the operation state of the vehicle. The sampling control signal transmits to the sensing unit, and controls the detection of the voltage of the battery cell. The operation state of the vehicle includes a running state and a stopping state.
US08796983B2
A data storage device stores previous position readings of the rotor for a previous cycle of a pulse width modulation signal applied to the motor. A current raw position reading for the current cycle is received. A predicted position reading for a current cycle is determined based on at least one of the stored previous position readings of the previous cycle. A data processor determines whether a difference between the current raw position reading and the predicted position reading for a first mode and a second mode is within one or more preset thresholds. The data processor selects the current raw position reading as a verified reliable final position reading if a first difference for the first mode is equal to or less than a primary preset threshold or if a second difference for the second mode is equal to or less than a secondary preset threshold.
US08796982B2
A system and method for detecting input phase loss in an adjustable speed drive (ASD) includes an input unit to detect operating data from the ASD. The operating data includes a DC link current of the ASD. The system also includes a state observer that is adapted to receive the operating data from the input unit and extract a DC link capacitor current of the ASD using the DC link current. The system also includes a controller programmed to compare the extracted DC link capacitor current to a predetermined fault range and generate a fault indication of an input phase loss if the extracted DC link capacitor current is within the predefined fault range. The controller is also programmed to calculate an estimated lifespan of the DC link capacitor based on the extracted DC link capacitor current.
US08796978B2
Embodiments of the present method and system permit an effective method for determining the optimum selection of pulse width modulation polarity and type including determining machine parameters, inputting the machine parameters into a predicted duty cycle module, determining the optimum polarity of the pulse width modulation for a predicted duty cycle based on a pulse width modulation generation algorithm, and determining the optimum type of the pulse width modulation for a predicted duty cycle based on the pulse width modulation generation algorithm.
US08796977B2
A voltage regulator for a pair of electric motors has an input for a signal indicative of the desired speed for the motors and a pulse width modulation control circuit device. A control module provides a conditioning signal to the control circuit to output to the motors a square wave voltage having a duty-cycle which varies according to a predetermined function of the signal applied to the input of the regulator. The control circuit device has first and second electronic solid state switches associated with the motor and controlled by the control module.
US08796976B2
An electric power tool includes a motor that rotary drives an output shaft; an operation unit to input a drive command of the motor; a torque setting device that sets an upper limit value of a rotational torque of the output shaft in accordance with a torque setting command; and a control device that drives the motor in one of a forward direction and a reverse direction in accordance with the drive command, and stops driving of the motor when the rotational torque of the output shaft has reached the upper limit value set by the torque setting device during driving of the motor. The torque setting device is configured to set the upper limit value such that the upper limit value during driving of the motor in the forward direction and the upper limit value during driving of the motor in the reverse direction are different.
US08796974B2
A system for determining an initial position of a rotor (9) of a PMSM motor includes a motor controller (2) coupled to a plurality of phase windings of the motor by means of an actuation circuit (3). A processor (12) and an interface circuit (14) are coupled to the processor and the phase windings. The processor determines if the rotor speed is zero, and if so causes the actuation circuit to sequentially apply voltage signals (Vab, Vba, Vac, Vca, Vbc, and Vcb) to the phase windings to produce corresponding phase winding current signals (Iab, Icb, Ica, Iba, Ibc, Iac) in the various phase windings. The phase winding current signals are sensed and digitized. The processor then determines a position of a magnetic flux path associated with the rotor by computing the initial position of the rotor from one of the digitized phase winding current signals associated with the predetermined magnetic flux path.
US08796971B2
In a motor drive apparatus for driving a three-phase AC motor, a first mounting part of a heat sink is formed along an end. A second mounting part is formed in a direction perpendicular to the first mounting part and includes a first column part and a second column part. Three motor relay FETs are mounted on the first mounting part. Six inverter FETs and two power relay FETs are mounted on the second mounting part. Leads of the FETs are electrically connected to an electric circuit substrate. Heat generated by the FETs is radiated to the heat sink through an insulating and heat radiating sheet. By thus arranging the FETs, the motor drive apparatus is reduced in size.
US08796970B2
A method serves for starting a polyphase electric motor which is operated in a star connection. The method conductively bridges at least one winding part of a phase of the motor and electrically disconnects the bridged winding part, in order in this manner, to supply a higher voltage to the remaining, electrically effective windings, and thus to increase the flow of current and thus the torque.
US08796969B2
An switch array for use in a motor control circuit with a power source, controller and a motor includes a plurality of bidirectional switches positioned between the power source and the motor, wherein the bidirectional switches are PWM controlled by high speed control signals from the controller to provide power from the power source to the motor as desired, wherein the switch array is positioned substantially adjacent to the motor. The power source may be a three phase AC power source. The switches are preferably bidirectional gallium nitride (GaN) switches.
US08796961B2
A complex joystick system master unit embodiment utilizes joystick segments and joystick joints arranged in a particular order with a slave unit arranged in a similar order. A sample master unit with three joystick segments has segment lengths that provide a relative ratio of lengths between themselves. The slave unit articulated arm utilizes controlled segments and articulated arm joints arranged in the same order and having the same relative ratio of lengths between themselves. Articulated arm electronic angle sensors and joystick segment angle sensors produce signal that are applied to a plurality of servos. The servos control movement of the articulated arm so that said respective relative angular articulated arm positions of the articulated arm controlled segments match those of the complex joystick segments.
US08796957B2
A multi-string LED driving method and system requires generating pulse-width-modulated (PWM'd) driving signals to respective LED strings to control their brightness levels, and staggering the timing of the driving signals such that the number of LED strings driven on simultaneously varies over time by no more than one LED string. The PWM'd driving signals are generated to, for example, achieve local dimming for a display device which employs a multi-string LED backlight system; the present method enables local dimming to be achieved while maintaining a relatively constant load on the drive circuit. The staggering of the timing of the PWM'd driving signals is preferably implemented by arranging the ON times of the driving signals such that they occur serially, such that the loading imposed by the LED strings is spread throughout each switching cycle.
US08796950B2
A feedback circuit for a power converter (e.g., a non-isolated converter) is disclosed. The feedback circuit may include a sense circuit coupled to receive an output current of the converter. A sense voltage may be generated across the sense circuit and a voltage-to-current converter may be used to convert the sensed voltage into a feedback signal representative of the output current. The voltage-to-current converter may include a variable shunt regulator, resistor, and transistor. A voltage across the shunt regulator may change in response to a change in voltage across the sense circuit, and the feedback signal may change in response to a change in the voltage across the shunt regulator. A controller may be coupled to receive the feedback signal from the feedback circuit and may control switching of a power switch to regulate the output current based at least in part on the feedback signal.
US08796946B2
An LED driver for operating a light source, in particular an LED, includes an energy storage unit, a driver circuit supplied by the energy storage unit during emergency lighting operation, for operating the light source, and a control unit that activates the driver circuit in such a way that the light source is operated with a constant power or constant current irrespective of the state of charge of the energy storage unit, where the control unit, for the purpose of regulating the power, determines indirectly the level of the current supplied to the light source.
US08796943B2
In an LED lamp according to one embodiment of the present invention, a PWM control unit 25 performs PWM control of a current i flowing through an LED unit 24 using by driving a pulse at a frequency higher than a predetermined frequency when a frequency of an external alternating current inputted between input terminal parts 20a, 20b is lower than the predetermined frequency, and does not perform PWM control of the current i flowing through the LED unit 24 when a frequency of the external AC inputted between the input terminal parts 20a, 20b is higher than the predetermined frequency. Accordingly, by replacing a previously mounted fluorescent lamp, the LED unit drives pulses at a high frequency and lights up for illumination, regardless of whether a ballast of an illumination device is of a glow starter, rapid starter or inverter lighting type.
US08796942B2
There is provided an LED circuit including a light emitting unit including a plurality of light emitting diodes; and a switching unit switching to apply only positive voltage of an AC power supply to an anode of the light emitting unit. Through this, the LED circuit can reduce complexity of a driving circuit. Further, lifespan and efficiency of the LED circuit may be improved since an electrolytic capacitor and a bridge circuit are not used. Further, any one light emitting diode may be prevented from determining the lifespan of all of the light emitting diodes since all of the light emitting diodes are driven at all times, thereby improving the lifespan of the light emitting diode.
US08796937B2
A driver circuit for a light-emitting device includes a light-emitting device, a data receiving unit, a storage unit, a driver unit and a voltage divider. The data receiving unit receives a data signal, the storage unit stores a capacitor voltage, and a positive correlation exists between the capacitor voltage and the data signal. The driver unit is coupled to the light-emitting device, and the driver unit is turned on to drive the light-emitting device according to the capacitor voltage and to generate a threshold voltage of the driver unit. The voltage divider is coupled between the data receiving circuit and the light-emitting device and turned on by the capacitor voltage to generate a divided voltage. The voltage divider detects a voltage variation in the threshold voltage and in a voltage across the light-emitting device and adjusts the divided voltage according to the voltage variation.
US08796936B2
An ambient light sensor integrated in a compact fluorescent lamp that, in turn, may include a controller and a radiation source. The ambient light sensor may include a radiation receiver to receive and filter incident radiation to obtain a value of the level of infrared radiation, and an electronic module to determine if the value is above a reference threshold value to enable the controller to switch the state of the radiation source.
US08796932B2
Systems and methods in accordance with embodiments of the invention implement microscale digital vacuum electronic gates. In one embodiment, a microscale digital vacuum electronic gate includes: a microscale field emitter that can emit electrons and that is a microscale cathode; and a microscale anode; where the microscale field emitter and the microscale anode are disposed within at least a partial vacuum; where the microscale field emitter and the microscale anode are separated by a gap; and where the potential difference between the microscale field emitter and the microscale anode is controllable such that the flow of electrons between the microscale field emitter and the microscale anode is thereby controllable; where when the microscale anode receives a flow of electrons, a first logic state is defined; and where when the microscale anode does not receive a flow of electrons, a second logic state is defined.
US08796930B2
An LED lamp is placed in service on an automotive vehicle to enhance nighttime visual ability or anywhere where increased lighting is needed. The LED lamp utilizes a multi-stage power and control design, where the LED drive current is managed by an LED constant current controller that is coupled to a microprocessor that commands the intensity value of an LED array. The microprocessor manages the light intensity of the LED array using well known pulse-width modulation control methods. The microprocessor measures the voltage of the DC power source and to detect when DC power is removed. Once this detection has occurred, the microprocessor signals the LED current controller to change the current operational mode being delivered to the LED array to the next available operational mode, or alternatively, to the next appropriate operational mode to be used as determined by software stored within the microprocessor.
US08796929B2
A daytime running lamp (DRL) controller for controlling power to a light source of a vehicle includes a switch, an engine starting-up detector and a switch control circuit. The switch is coupled to the light source. The engine starting-up detector is coupled to the switch, and generates a trigger signal if the engine is starting up. The switch control circuit is coupled to the switch and the engine starting-up detector, and includes a controller. The controller generates a first control signal to switch on the switch to power on the light source responsive to the trigger signal, and keeps outputting the first control signal if a holding signal is generated within a first time period after the trigger signal is received. The first time period is a time period during which the controller is reset after receiving the trigger signal.
US08796918B2
Discloses is an organic light emitting display device including a first substrate divided into a pixel region and a non-pixel region. An organic light emitting element includes a first electrode, an organic thin film layer and a second electrode formed in the pixel region. A scan driver and a metal film corresponding to a region of the scan driver are formed in the non-pixel region. A second substrate is spaced apart from the pixel region and the non-pixel region of the first substrate. A frit is formed along an edge of a non-pixel region of the second substrate, wherein the frit is formed so that it can be overlapped with an active area of the scan driver formed in the non-pixel region.
US08796910B2
Embodiments provide a halogen lamp configured to minimize a short circuit of a filament.Provided is a halogen lamp that includes a support part passing through a bulb and disposed in the bulb. A filament is hung on the support part. Thus, a short circuit of the filament is minimized.
US08796901B2
A micro-electro-mechanical transducer (such as a cMUT) having two electrodes separated by an insulator with an insulation extension is disclosed. The two electrodes define a transducing gap therebetween. The insulator has an insulating support disposed generally between the two electrodes and an insulation extension extending into at least one of two electrodes to increase the effective insulation without having to increase the transducing gap. Methods for fabricating the micro-electro-mechanical transducer are also disclosed. The methods may be used in both conventional membrane-based cMUTs and cMUTs having embedded springs transporting a rigid top plate.
US08796899B2
The stator winding includes: a first three-phase wye-delta hybrid winding that is configured by connecting phase windings of a first wye winding to respective output ends of a first delta winding; and a second three-phase wye-delta hybrid winding that is configured by connecting phase windings of a second wye winding to respective output ends of a second delta winding. The phase windings of the first and second wye windings are configured by connecting two winding portions in parallel, and those two winding portions are configured such that distributions of radial positions inside slots of conductor wires that constitute the winding portions are equal.
US08796894B2
An electromagnetic actuator includes a body and first and second poles residing apart from the body. The first and second poles communicate magnetic flux across a gap with opposing end facing surfaces of the body. The body, the first pole, and the second pole are magnetically coupled and define an axial magnetic control circuit. A plurality of radial poles reside apart from the body, adjacent a lateral facing surface of the body, and communicate magnetic fluxes with the lateral facing surface. The body and the plurality of radial poles define a plurality of radial magnetic control circuits. The plurality of radial poles communicate magnetic fluxes with the lateral facing surface and at least one of the first pole or the second pole, and the body, the plurality of radial poles, and at least one of the first pole or the second pole define a magnetic bias circuit.
US08796892B2
A generator includes a drive gear mounted to a main rotor shaft though a drive gear bearing and an input jaw plate keyed to the drive gear for rotation therewith, the input jaw plate defines input jaws which selectively mesh with the disconnect jaws, the disconnect shaft axially movable in response to a disconnect system which axially separates input jaws and the disconnect jaws to permit relative rotation between a main rotor shaft and the drive gear through the drive gear bearing.
US08796891B2
A brushless DC motor is provided and includes: a stator assembly; a rotor assembly including a sleeve; a case assembly; and a circuit board assembly which has an electronic component mounted thereon. The case assembly is provided with an opening, the electronic component passes through the opening so as to protrude inside the case assembly, and a groove is formed at an axial end of the sleeve of the rotor assembly in order to prevent the electronic component from making contact with any part of the rotor assembly. Thus, the axial dimension of the brushless DC motor that includes the electronic component disposed to protrude inside the case assembly can be successfully reduced in such a manner that the electronic component is accommodated within the groove. Further, no electronic component is disposed around the outer circumference of the stator assembly and therefore the radial dimension also can be kept small.
US08796890B2
A power control module including a socket, a switch circuit and an interface control circuit is provided. A plug is adapted to be inserted into the socket, and the socket has a positive terminal, a first negative terminal and a second negative terminal. When the plug is inserted into the socket, a negative terminal of the plug sequentially contacts the first negative terminal and the second negative terminal. The switch circuit receives a power voltage through the positive terminal. The interface control circuit determines whether to generate a switching signal to the switch circuit according to a voltage level of the second negative terminal. When receiving the switching signal, the switch circuit outputs the power voltage.
US08796881B2
A system that enables power flow management for electrical devices, such as electric vehicles. Power flow managers can coordinate charging activities. Power flow decisions may be based on site-level information. Power flow management strategies may be optimized. Power spikes may be avoided by using safe failure modes. Generation stacks may be used for reducing cost. AGC commands are used to control power resources. Power regulation are apportioned to power resources, and power regulation ranges may be determined. Power flow strategies are implemented in response to changes in intermittent power flow. Locations of devices may be determined using network fingerprints. Power flow measurements are determined, and AC power flows are inferred from DC power flows. Network traffic consumption are minimized. Communication protocols are translated. Enhanced vehicle communications are provided that communicate to vehicle subsystems, that arbitrate smart charge points, and that use existing hardware, non-specific hardware, or control extensibility systems.
US08796880B2
A first resistance (125) within a power supply (110) can be connected to a power supply output (120). A variable resistance (130) can be serially coupled with the first resistance, thereby providing a first intermediate voltage at a point (115) disposed between the first resistance and the variable resistance. The variable resistance can be at a maximum in the absence of an expansion device (140) and at less than maximum in the presence of an expansion device. The first intermediate voltage and a second intermediate voltage (145) can be introduced to a comparator (150). The comparator can provide an output signal (170) when the first intermediate voltage exceeds the second intermediate voltage. The comparator output signal can be used to confirm the power supply capacity to power an external device (180) and to enable one or more external device functions.
US08796873B2
This invention relates to a wind turbine of variable speed type including: a wind turbine tower; a nacelle on said wind turbine; a wind turbine rotor hub rotatably mounted at said nacelle, said wind turbine rotor hub having at least one wind turbine blade mounted thereon and a shaft coupled to said wind turbine rotor hub and to, optionally via a gear box, a primary generator which via power lines has a primary stator electrically connected to a grid connection and a primary rotor electrically connected to a back-to-back converter at a generator side converter end wherein the back-to-back converter at a grid side converter end is electrically connected to the grid connection. The wind turbine further includes a secondary generator coupled to the shaft via a mechanical coupling and electrically connected to the primary rotor of the primary generator and the generator side converter end of the back-to-back converter.
US08796870B2
An electric power generator having two water tanks, and two chambers movable up and down inside the two water tanks respectively in opposite directions. Each chamber has a top wall having an air outlet covered by a pressure valve, and a bottom wall having a plurality of apertures serving as both water inlets and outlets. An electric motor drivably connected to two chains from which the two chambers are hung respectively. Upper and lower electromagnetic holding devices provided at top and bottom of each water tank for holding or releasing the chambers. Continuous up and down movement of the two chambers in opposite directions by buoyancy and gravity alternately and continuously drives the electric motor to generate electric power. A method of generating electric power is also disclosed.
US08796865B1
Radio Frequency Identification (RFID) tags are provided, along with apparatuses and methods for making. In some embodiments, the RFID tags include an RFID tag chip that is attached to an inlay and/or a strap. The inlay or strap has one or more contact bumps formed thereon. In some of these embodiments, the RFID tag chip includes pads for electrical contacts, but not chip-bumps, thanks to the contact bump.
US08796855B2
An electric device with vias that include dielectric structures to prevent conductive material in the vias from electrically connecting conductive structures on a top of the vias with conductive structures on the bottom of the vias. The dielectric structures are formed in selected vias where other vias do not include the dielectric structures.
US08796850B2
By forming a metal layer 14 on at least one of a connecting electrode 12 of a first substrate 10 and a connecting electrode 17 of a second substrate 15, placing the first substrate 10 and the second substrate 15 together in order that the connecting electrode 12 and the connecting electrode 17 face opposite to each other via the metal layer 14, increasing temperature up to anodic bonding temperature, and applying DC voltage between the first substrate 10 and the second substrate 15 while maintaining that temperature, the first substrate 10 and the second substrate 15 are anodically bonded, and at the same time by melting the metal layer 14, the connecting electrode 12 and the connecting electrode 17 are electrically connected. The method achieves anodic bonding of substrates with high yield and at the same time establishes wiring connection, effective for packaging.
US08796838B2
A semiconductor device includes a header, a semiconductor chip fixed to the header constituting a MOSFET, and a sealing body of insulating resin which covers the semiconductor chip, the header and the like, and further includes a drain lead contiguously formed with the header and projects from one side surface of the sealing body, and a source lead and a gate lead which project in parallel from one side surface of the sealing body, and wires which are positioned in the inside of the sealing body and connect electrodes on an upper surface of the semiconductor chip and the source lead and the gate lead, with a gate electrode pad arranged at a position from the gate lead and the source lead farther than a source electrode pad.
US08796834B2
A stack package includes a core layer having a first surface and a second surface, and including first circuit wiring lines; a first semiconductor device disposed on the second surface of the core layer; a first resin layer formed on the second surface of the core layer to cover the first semiconductor device; second circuit wiring lines formed on the first resin layer and electrically connected with the first semiconductor device; a second semiconductor device disposed over the first resin layer including the second circuit wiring lines and electrically connected with the second circuit wiring lines; a second resin layer formed on the second circuit wiring lines and the first resin layer to cover the second semiconductor device; and a plurality of via patterns formed to pass through the first resin layer and the core layer and electrically connecting the first circuit wiring lines and the second circuit wiring lines.
US08796825B2
Highly reliable interconnections for microelectronic packaging. In one embodiment, dielectric layers in a build-up interconnect have a gradation in glass transition temperature; and the later applied dielectric layers are laminated at temperatures lower than the glass transition temperatures of the earlier applied dielectric layers. In one embodiment, the glass transition temperatures of earlier applied dielectric films in a build-up interconnect are increased through a thermosetting process to exceed the temperature for laminating the later applied dielectric films. In one embodiment, a polyimide material is formed with embedded catalysts to promote cross-linking after a film of the polyimide material is laminated (e.g., through photo-chemical or thermal degradation of the encapsulant of the catalysts). In one embodiment, the solder resist opening walls have a wettable layer generated through laser assisted seeding so that there is no gap between the solder resist opening walls and no underfill in the solder resist opening.
US08796823B2
A semiconductor device includes a semiconductor substrate and a through electrode provided in a through hole formed in the semiconductor substrate. The through electrode partially protrudes from a back surface of the semiconductor substrate, which is opposite to an active surface thereof. The through electrode includes a resin core and a conductive film covering at least a part of the resin core.
US08796820B2
A semiconductor wafer having a disc shape includes a chamfer provided around a circumferential edge of the wafer, and an anti-cracking and chipping groove provided in one or more areas around one circumference of an end face of the wafer along a circumferential direction of the end face. The anti-cracking and chipping groove is configured to prevent cracking or chipping of the end face in back grinding.
US08796818B2
A semiconductor memory device that has an isolated area formed from one conductivity and formed in part by a buried layer of a second conductivity that is implanted in a substrate. The walls of the isolated area are formed by implants that are formed from the second conductivity and extend down to the buried layer. The isolated region has implanted source lines and is further subdivided by overlay strips of the second conductivity that extend substantially down to the buried layer. Each isolation region can contain one or more blocks of memory cells.
US08796812B2
A stack of a first hard mask portion and a second hard mask portion is formed over a semiconductor material layer by anisotropically etching a stack, from bottom to top, of a first hard mask layer and a second hard mask layer. The first hard mask portion is laterally recessed by an isotropic etch. A dielectric material layer is conformally deposited and planarized. The dielectric material layer is etched employing an anisotropic etch that is selective to the first hard mask portion to form a dielectric material portion that laterally surrounds the first hard mask portion. After removal of the second and first hard mask portions, the semiconductor material layer is etched employing the dielectric material portion as an etch mask. Optionally, portions of the semiconductor material layer underneath the first and second hard mask portions can be undercut at a periphery.
US08796807B2
By incorporating germanium material into thermal sensing diode structures, the sensitivity thereof may be significantly increased. In some illustrative embodiments, the process for incorporating the germanium material may be performed with high compatibility with a process flow for incorporating a silicon/germanium material into P-channel transistors of sophisticated semiconductor devices. Hence, temperature control efficiency may be increased with reduced die area consumption.
US08796805B2
A method includes forming an opening extending from a back surface of a semiconductor substrate to a metal pad on a front side of the semiconductor substrate, and forming a first conductive layer including a first portion overlapping active image sensors in the semiconductor substrate, a second portion overlapping black reference image sensors in the semiconductor substrate, and a third portion in the opening to contact the metal pad. A second conductive layer is formed over and contacting the first conductive layer. A first patterning step is performed to remove the first and the second portions of the second conductive layer, wherein the first conductive layer is used as an etch stop layer. A second patterning step is performed to remove a portion of the first portion of the first conductive layer. The second and the third portions of the first conductive layer remain after the second patterning step.
US08796798B2
An imaging module includes an imaging chip including a micro-lens guiding incident light and an imaging element in a semiconductor substrate and converting the incident light into an electric signal, and a polarizing glass chip including a polarizing filter glass having a polarizer determining a polarization direction of the incident light arranged on a transparent substrate such that the polarizer faces the micro-lens and a spacer member connected to the polarizing filter glass to adjust a gap between the polarizer and the micro-lens of the imaging chip. In the imaging module, a melt-bonding surface of the spacer member is melt-bonded to the semiconductor substrate such that the polarizer of the polarizing glass chip and the micro-lens of the imaging chip are arranged close to each other via the gap, and the imaging element and the micro-lens of the imaging chip are sealed by the polarizing glass chip.
US08796797B2
Perpendicular spin transfer torque memory (STTM) devices with enhanced stability and methods of fabricating perpendicular STTM devices with enhanced stability are described. For example, a material layer stack for a magnetic tunneling junction includes a fixed magnetic layer. A dielectric layer is disposed above the fixed magnetic layer. A free magnetic layer is disposed above the dielectric layer. A conductive oxide material layer is disposed on the free magnetic layer.
US08796793B2
A magnetoresistive element includes: a lower magnetic layer; a barrier layer; and an upper magnetic layer. The barrier layer is provided on the lower magnetic layer. The upper magnetic layer is provided on the barrier layer. One of magnetization directions of the lower magnetic layer and the upper magnetic layer is fixed. The barrier layer has a first surface which includes a surface contacted with an upper surface of the lower magnetic layer. The upper magnetic layer has a second surface which includes a surface contacted with an upper surface of the barrier layer. Each of the first surface and the second surface is larger than the upper surface of the lower magnetic layer in area.
US08796783B2
Each gate structure formed on the substrate includes a gate dielectric, a gate conductor, a first etch stop layer, and a gate cap dielectric. A second etch stop layer is formed over the gate structures, gate spacers, and source and drain regions. A first contact-level dielectric layer and a second contact-level dielectric layer are formed over the second etch stop layer. Gate contact via holes extending at least to the top surface of the gate cap dielectrics are formed. Source/drain contact via holes extending to the interface between the first and second contact-level dielectric layers are subsequently formed. The various contact via holes are vertically extended by simultaneously etching exposed gate cap dielectrics and exposed portions of the first contact-level dielectric layer, then by simultaneously etching the first and second etch stop layers. Source/drain contact vias self-aligned to the outer surfaces gate spacers are thereby formed.
US08796781B2
A semiconductor memory device includes a semiconductor substrate, an active region including a plurality of unit active regions and disposed over and spaced from the semiconductor substrate, a pair of word lines formed on a top surface and sides of the unit active region, a dummy word line disposed at a contact of the unit active regions and formed on top surfaces and sides of the unit active regions, a source region in the unit active region between the pair of word lines and electrically connected to the semiconductor substrate, drain regions formed in the unit active region between the pair of word lines and the dummy word line, and first storage layers formed on the drain regions and electrically connected to the drain regions.
US08796779B2
A first MIS transistor and a second MIS transistor of the same conductivity type are formed on an identical semiconductor substrate. An interface layer included in a gate insulating film of the first MIS transistor has a thickness larger than that of an interface layer included in a gate insulating film of the second MIS transistor.
US08796769B2
A method including introducing a species into a substrate including semiconductor material; and translating linearly focused electromagnetic radiation across a surface of the substrate, the electromagnetic radiation being sufficient to thermally influence the species. An apparatus including an electromagnetic radiation source; a stage having dimensions suitable for accommodating a semiconductor substrate within a chamber; an optical element disposed between the electromagnetic radiation source and the stage to focus radiation from the electromagnetic radiation source into a line having a length determined by the diameter of a substrate to be placed on the stage; and a controller coupled to the electromagnetic radiation source including machine readable program instructions that allow the controller to control the depth into which a substrate is exposed to the radiation.
US08796758B2
A semiconductor device includes a substrate formed of a first semiconductor material; two insulators on the substrate; and a semiconductor region having a portion between the two insulators and over the substrate. The semiconductor region has a bottom surface contacting the substrate and having sloped sidewalls. The semiconductor region is formed of a second semiconductor material different from the first semiconductor material.
US08796754B2
A memory structure including a memory cell is provided, and the memory cell includes following elements. A first gate is disposed on a substrate. A stacked structure includes a first dielectric structure, a channel layer, a second dielectric structure and a second gate disposed on the first gate, a first charge storage structure disposed in the first dielectric structure and a second charge storage structure disposed in the second dielectric structure. At least one of the first charge storage structure and the second charge storage structure includes two charge storage units which are physically separated. A first dielectric layer is disposed on the first gate at two sides of the stacked structure. A first source and drain and a second source and drain are disposed on the first dielectric layer and located at two sides of the channel layer.
US08796749B2
A high-speed photodiode may include a photodiode structure having a substrate, a light-absorbing layer and a light-directing layer that is deposited on a top surface of the photodiode structure and patterned to form a textured surface used to change the angle of incident light to increase a light path of the incident light when entering the photodiode structure. In one embodiment, the light-directing layer may include a plurality of polygon such as triangular projections to refract the incident light to increase the light path thereof when entering the photodiode structure. In another embodiment, a plurality of nanoscaled sub-triangular projections can patterned on both sides of each triangular projection to more effectively increase the light paths. In a further embodiment, porous materials can be used to form the light-directing layer.
US08796736B1
A monolithically integrated device includes a substrate, a first set of Group III nitride epitaxial layers grown for a first HFET on a first region of the substrate, and a second set of Group III nitride epitaxial layers for a second HFET grown on a second region of the substrate.
US08796726B2
Disclosed is a semiconductor light emitting device. The semiconductor light emitting device includes a light emitting structure including a first conductive semiconductor layer, an active layer and a second conductive semiconductor layer. An electrode is on a bottom surface of the light emitting structure and an electrode layer and a conductive support member are disposed on the top surface of the light emitting structure. A recess is recessed from a top surface of the light emitting structure. A transmittive layer is between the light emitting structure and the electrode layer. The transmittive layer includes a first portion having a protrusion disposed in the recess.
US08796721B2
A semiconductor light emitting device including a substrate, an electrode and a light emitting region is provided. The substrate may have protruding portions formed in a repeating pattern on substantially an entire surface of the substrate while the rest of the surface may be substantially flat. The cross sections of the protruding portions taken along planes orthogonal to the surface of the substrate may be semi-circular in shape. The cross sections of the protruding portions may in alternative be convex in shape. A buffer layer and a GaN layer may be formed on the substrate.
US08796717B2
An LED package is provided. The LED package comprises a metal plate, circuit patterns, and an LED. The metal plate comprises grooves. The insulating layer is formed on the metal plate. The circuit patterns are formed on the insulating layer. The LED is electrically connected with the circuit pattern on the insulating layer.
US08796716B2
A light emitting diode including a first semiconductor layer, an active layer, and a second semiconductor layer is provided. The first semiconductor layer includes a first surface and a second surface, and the first surface is connected to the substrate. The active layer and the second semiconductor layer are stacked on the second surface in that order, and a surface of the second semiconductor layer away from the active layer is configured as the light emitting surface. A first electrode covers the entire surface of the first semiconductor layer. A second electrode is electrically connected with the second semiconductor layer. A number of three-dimensional nano-structures are located on the surface of the first surface of the first semiconductor layer and aligned side by side, and a cross section of each of the three-dimensional nano-structure is M-shaped.
US08796715B2
There is provided a phosphor blend for an LED light source comprising from about 25 to about 35 weight percent of a cerium-activated yttrium aluminum garnet phosphor, from about 5 to about 10 weight percent of a europium-activated strontium calcium silicon nitride phosphor, and from about 50 to about 75 weight percent of a europium-activated calcium magnesium chlorosilicate phosphor. An LED light source in accordance with this invention has a B:G:R ratio for a 5500 K daylight balanced color film of X:Y:Z when directly exposed through a nominal photographic lens, wherein X, Y and Z each have a value from 0.90 to 1.10.
US08796683B2
Provided is a transistor which includes an oxide semiconductor film and has stable electrical characteristics. In the transistor, over an oxide film which can release oxygen by being heated, a first oxide semiconductor film which can suppress oxygen release at least from the oxide film is formed. Over the first oxide semiconductor film, a second oxide semiconductor film is formed. With such a structure in which the oxide semiconductor films are stacked, the oxygen release from the oxide film can be suppressed at the time of the formation of the second oxide semiconductor film, and oxygen can be released from the oxide film in later-performed heat treatment. Thus, oxygen can pass through the first oxide semiconductor film to be favorably supplied to the second oxide semiconductor film. Oxygen supplied to the second oxide semiconductor film can suppress the generation of oxygen deficiency, resulting in stable electrical characteristics.
US08796681B2
A semiconductor device which is miniaturized and has sufficient electrical characteristics to function as a transistor is provided. In a semiconductor device including a transistor in which a semiconductor layer, a gate insulating layer, and a gate electrode layer are stacked in that order, an oxide semiconductor film which contains at least four kinds of elements of indium, gallium, zinc, and oxygen, and in which the percentage of the indium is twice or more as large as each of the percentage of the gallium and the percentage of the zinc when the composition of the four elements is expressed in atomic percentage is used as the semiconductor layer. In the semiconductor device, the oxide semiconductor film is a film to which oxygen is introduced in the manufacturing process and contains a large amount of oxygen, and an insulating layer including an aluminum oxide film is provided to cover the transistor.
US08796677B2
An apparatus includes a substrate; and a photoactive layer disposed on the substrate. The photoactive layer includes an electron acceptor material; an electron donor material; and a material having dipoles.
US08796665B2
Solid state radiation transducer (SSRT) assemblies and method for making SSRT assemblies. In one embodiment, a SSRT assembly comprises a first substrate having an epitaxial growth material and a radiation transducer on the first substrate. The radiation transducer can have a first semiconductor material grown on the first substrate, a second semiconductor material, and an active region between the first and second semiconductor materials. The SSRT can also have a first contact electrically coupled to the first semiconductor material and a second contact electrically coupled to the second semiconductor material. The first substrate has an opening through which radiation can pass to and/or from the first semiconductor material.
US08796664B2
A graphene-based composite structure is disclosed. The graphene-based composite structure includes a graphene layer, a transition metal layer, and a substrate. The graphene layer, transition metal layer, and substrate are stacked together in series to form a sandwich structure. The graphene layer and the transition metal layer are coupled by d-p orbitals hybridization. The transition metal layer and the substrate are also coupled by d-p orbitals hybridization. A method for making graphene-based composite structure is also disclosed.
US08796661B2
A method of forming a nonvolatile memory cell includes forming a first electrode having a first current conductive material and a circumferentially self-aligned second current conductive material projecting elevationally outward from the first current conductive material. The second current conductive material is different in composition from the first current conductive material. A programmable region is formed over the first current conductive material and over the projecting second current conductive material of the first electrode. A second electrode is formed over the programmable region. In one embodiment, the programmable region is ion conductive material, and at least one of the first and second electrodes has an electrochemically active surface directly against the ion conductive material. Other method and structural aspects are disclosed.
US08796651B2
A sample fabricating method of irradiating a sample with a focused ion beam at an incident angle less than 90 degrees with respect to the surface of the sample, eliminating the peripheral area of a micro sample as a target, turning a specimen stage around a line segment perpendicular to the sample surface as a turn axis, irradiating the sample with the focused ion beam while the incident angle on the sample surface is fixed, and separating the micro sample or preparing the micro sample to be separated. A sample fabricating apparatus for forming a sample section in a sample held on a specimen stage by scanning and deflecting an ion beam, wherein an angle between an optical axis of the ion beam and the surface of the specimen stage is fixed and formation of a sample section is controlled by turning the specimen stage.
US08796646B2
A method of depositing material onto a substrate at cryogenic temperatures using beam-induced deposition. A precursor gas is chosen from a group of compounds having a melting point that is lower than the cryogenic temperature of the substrate. Preferably the precursor gas is chosen from a group of compounds having a sticking coefficient that is between 0.5 and 0.8 at the desired cryogenic temperature. This will result in the precursor gas reaching equilibrium between precursor molecules adsorbed onto the substrate surface and precursor gas molecules desorbing from the substrate surface at the desired cryogenic temperature. Suitable precursor gases can comprise alkanes, alkenes, or alkynes. At a cryogenic temperature of between −50° C. and −85° C., hexane can be used as a precursor gas to deposit material; at a cryogenic temperature of between −50° C. and −180° C., propane can be used as a precursor gas.
US08796644B2
The invention relates to a charged particle beam lithography system comprising: a charged particle optical column arranged in a vacuum chamber for projecting a charged particle beam onto a target, wherein the column comprises deflecting means for deflecting the charged particle beam in a deflection direction, a target positioning device comprising a carrier for carrying the target, and a stage for carrying and moving the carrier along a first direction, wherein the first direction is different from the deflection direction, wherein the target positioning device comprises a first actuator for moving the stage in the first direction relative to the charged particle optical column, wherein the carrier is displaceably arranged on the stage and wherein the target positioning device comprises retaining means for retaining the carrier with respect to the stage in a first relative position.
US08796643B2
A radiographic image erasing device includes: a first light source that applies first erase light including a wavelength in the ultraviolet region to a storage phosphor sheet in which a radiographic image has been stored and recorded; a second light source that is placed at a height identical to that of the first light source and applies second erase light including a wavelength of a longer wavelength than that of the first erase light to the storage phosphor sheet to which the first erase light has been applied; drive mechanisms that switch the orientations or positions of the first light source and the second light source; and a controller that controls the drive mechanisms in accordance with a conveyance direction of the storage phosphor sheet such that the first erase light and the second erase light are applied in this order to the storage phosphor sheet.
US08796641B2
An installation for treating articles with radiation, the installation comprising a structure having pivotally mounted thereon an inlet starwheel and an outlet starwheel respectively arranged facing an inlet and an outlet of a shielded enclosure in which there are mounted at least one pivotal treatment starwheel and at least one electron emitter in the vicinity of the treatment starwheel. The installation comprises a linear inlet conveyor and a linear outlet conveyor extending inside the shielded enclosure respectively facing the inlet and the outlet, the linear conveyors each comprising a respective transporter surrounding a shielded wall forming a baffle.
US08796632B2
Embodiments of the present invention provide an apparatus for radiation analysis, comprising a pulse discrimination module arranged to receive a signal corresponding to a pulse output by a scintillator and to determine a discrimination value indicative of one or more characteristics of the pulse, and a radiation type determination module for determining a type of radiation responsible for the pulse according to the discrimination value.
US08796617B2
The invention relates generally to sample ionization, and provides ionization probe assemblies, systems, computer program products, and methods useful for this purpose.
US08796616B2
A miniature mass spectrometer that may be coupled to an atmospheric pressure ionisation source is described. Ions pass through a small orifice from a region at atmospheric pressure or low vacuum, and undergo efficient collisional cooling as they transit a very short, differentially pumped ion guide. A narrow beam of low energy ions is passed through a small aperture and into a separate chamber containing the mass analyser.
US08796608B2
Embodiments of dual stage active pixel devices are described herein. Other examples, implementations, and related methods are also disclosed herein.
US08796603B2
An appliance including a cabinet having a first PCB located therein, a door connected to the cabinet, the door being moveable between an open position and a closed position to open and close the cabinet, and a second PCB located in the door. In addition, at least one first connector is connected to the first PCB. At least one second connector is connected to the second PCB and is electronically connectable to the first connector. In particular, the second connector is electrically connected to the first connector when the door is in a substantially closed position.
US08796599B2
An induction heat cooking device is provided that finishes preheating in a short time and maintains the temperature obtained at the finish of the preheating. When a preheating heating mode is selected as an operation mode, a control unit (8) arranged in the induction heat cooking device starts operation in a preheating mode in which a cooking container is heated with a first heating output. When an increment of an output value of an infrared sensor exceeds a first predetermined increment since the heating starts with the first heating output, the control unit causes a notification unit to notify a user that the preheating is finished, and the operation mode is changed to a waiting mode for performing heating with a second heating output that is lower than the first heating output. Further, when the user sets a heating power by means of a heating power setting unit in the preheating mode, the control unit prohibits changing to the heating power set by the user. When the user sets a heating power by means of a heating power setting unit in the waiting mode, the control unit permits changing to the heating power set by the user, and the operation mode is changed to a heating mode for performing heating with a third heating output corresponding to the heating power set by the user.
US08796598B2
An induction cooking utensil is constructed such that it cooks food within its chamber while maintaining a relatively cool outer surface (e.g., preferably an outer surface that is cool enough to pick up with one's bare hands). The cooking utensil includes an inner wall that is made at least in part of an electrically conductive material and an outer wall that is made at least in part of the electrically non-conductive material. A reflective layer, a vacuum-sealed thermal insulator and/or a gas more resistant to conducting heat than air is disposed between the inner and outer walls to resist the transfer of heat from the inner wall to the outer wall.
US08796597B2
An in-line package apparatus includes a first treating unit, an input storage unit, a heating unit and an output storage unit. The first treating unit performs a ball attach process or a chip mount process. A processing object that a process is completed in the first treating unit is received in a magazine so as to be vertically stacked and a plurality of magazines each having one or more processing objects is stored in an input stacker. The heating unit performs a reflow process on the processing objects in the magazine stored in the input stacker by an induction heating method. A processing object that a reflow process is completed is received in a magazine and then stored in an output stacker.
US08796589B2
In a first aspect, a first substrate processing system is provided that includes (1) a chamber having a plurality of opening through which a substrate may be transported; (2) a substrate carrier opener coupled to a first one of the plurality of openings; (3) a thermal processing chamber coupled to a second one of the plurality of openings; and (4) a wafer handler contained within the chamber, having a substrate clamping blade and a blade adapted to transport high temperature substrates.
US08796587B2
A welding gun, including a contact tip assembly, a diffuser cap, a tip holder, and a shielding gas diffuser, where the shielding gas diffuser includes a casing and an axial tube extending within the casing, and where the casing and the tip holder are connected via a connection system that includes threads with reduced peaks.
US08796583B2
A structured surface is formed with the method of the present invention. The method of making this structured surface includes the steps of applying an ablatable radiation sensitive coating on the major surface of the substrate, and exposing the ablatable radiation sensitive coating to radiation such that exposed portions of the ablatable radiation sensitive coating ablate from the substrate to form a structured surface. The structured surface then includes a substrate and a pattern of structures framed by at least one separation bank. The method may also include the steps of depositing a flowable material on to the structures and the separation bank to form a pattern of flowable material in the structures.
US08796580B2
The invention is directed at a method for welding a composite material and to welded structures thus prepared. The method includes a step of contacting a substrate material with a composite material, wherein the composite material includes a pair of spaced apart steel sheets and a core layer between the sheets; the volume of the core layer is about 25 volume % or more, based on the total volume of the composite material; the core layer includes a plurality of steel fibers arranged in one or more masses of fibers that extend the thickness of the core layer so that the core layer is in electrical communication with the steel sheets; and the steel fibers have a cross sectional area perpendicular to the length of the fibers from about 1×10−5 mm2 to about 2.5×10−2 mm2.
US08796579B2
A flange (13) for use in direct resistance heating of a glass-carrying vessel (10), such as a finer, is provided. The flange comprises a plurality of electrically-conductive rings which include an innermost ring (140) which is joined to the vessel's exterior wall (12) during use of the flange and an outermost ring (150) which receives electrical current during use of the flange. The innermost ring (140) comprises a high-temperature metal which comprises at least 80% platinum and the outermost ring (150) comprises at least 99.0% nickel. This combination of materials both increases the reliability of the flange and reduces its cost. In certain embodiments, the flange can also include one or more rings (190) composed of a platinum-nickel alloy which has a lower thermal conductivity than platinum or nickel and thus can serve to reduce heat loss through the flange.
US08796578B2
A method, apparatus, and structure are provided for implementing selective rework for chip stacks. A backside metal layer to create resistive heating is added to a chip backside in a chip stack. A rework tool applies a predefined current to the backside metal layer to reflow solder connections and enables separating selected chips in the chip stack.
US08796572B2
A molding process is performed by molds such that a primarily molded body 12 mounted with a detecting element 11 for detecting a vehicle condition is subjected to a secondary molding process, and that a hollow portion 19 within a connector housing portion 15 to be formed by the secondary molding process is penetrated to the face area of the primarily molded body 12 corresponding to the position of the detecting element 11.
US08796570B2
An interlock device of a draw-out type circuit breaker, provided with a tripping button that is linked to a tripping mechanism of the draw-out type circuit breaker and an interlock rod that is placed so as to be movable up and down, and constructed so that the tripping button mechanically prevents an operation to raise the interlock rod unless the tripping button is operated to place the draw-out type circuit breaker in the open state, so a power distribution board floor surface or a member fixed on the power distribution board floor surface and the interlock rod interfere with each other, thereby the draw-out type circuit breaker is fixed at a prescribed position in a power distribution board.
US08796564B2
A produce transaction system and method which is located in a produce section of a store. The produce transaction system includes a scale below a container in a produce section of a store, the container storing a single type of produce item, and a computer coupled to the scale for receiving a weight decrease signal from the scale when a customer removes an amount of the single type of produce item from the scale and for storing produce purchase information associated with the single type of produce item for later retrieval by a checkout computer.
US08796563B2
In ultrasonic bonding of a metal terminal to a substrate pad, a thin buffer metal layer which is formed of a soft metal or a highly slidable metal is interposed between a terminal edge and a pad so as to prevent direct contact between an end of the terminal and the pad upon bonding. This makes it possible to prevent abrasion and a crack in the pad at the end of the terminal caused by pressure and an ultrasonic wave upon the ultrasonic bonding. This makes it possible to realize a compact bonded structure with high reliability.
US08796562B2
A combiner box includes a combiner module and an electrical connector unit disposed in a casing. The combiner module includes an insulating board, and plural first and second input electrodes disposed on opposite surfaces of the insulating board along a first direction and corresponding respectively to plural first and second input sockets of the casing. The second input sockets are disposed below and alternatingly arranged with the first input sockets along the first direction. The electrical connector unit includes plural first and second input terminals disposed in the first and second input sockets and electrically connected to the first and second input electrodes, respectively.
US08796560B2
A package includes a body that encapsulates a semiconductor die, the body having a first pair of opposing lateral sides, a second pair of opposing lateral sides, a top, and a bottom. The bottom has a primary surface and a plurality of protrusions that extend outward from the primary surface. When the package is mounted to a printed circuit board (PCB) the protrusions contact the PCB and the primary surface is disposed a first distance away from the PCB. The package further includes a plurality of leads that extend outward from the first pair of opposing lateral sides.
US08796551B2
A power supply control device includes a body part in which a circuit block is accommodated; a first cable drawn outside from the body part to be connected to a charge circuit of an electric vehicle; a second cable drawn outside from the body part to be connected to a power source; and a sealing member sealing a gap between each of the cables and a corresponding cable passing port of the body part. The power supply control device further includes an outer restriction member provided at each of the cables on an outer side than the sealing member to prevent the corresponding cable from being bent.
US08796546B2
A plastic shield for a cable and insulator is described having a center section for covering the insulator. The center section has an opening at both its ends for the cable. Proximate each opening is a pivotable and bendable flange, where the flange pivots at one end of the flange and freely bends. An arm extends from each of the cable openings of the center section, and each arm covers the cable exiting the center section. Each arm is pivotally attached to the other end of the associated flange. The flange allows its associated arm to be moved over a wide range of horizontal and vertical angles (e.g., up to 45 degrees) and allows the arms to have a variable horizontal and vertical offset relative to the center line of the center section and insulator to accommodate a cable that is offset from the center line.
US08796541B2
In order to provide a see-through solar cell module in which the manufacturing costs can be reduced and transmittance can be readily modified without modifying the manufacturing steps, there is provided a solar cell module comprising solar cells in which are layered a conductive substrate, and a lower electrode layer, a photoelectric conversion layer, and an upper electrode layer in the stated order on the conductive substrate; the solar cell module having a configuration in which a plurality of through-openings that pass through the conductive substrate to the upper electrode layer in the layering direction is formed over the entire surface of the solar cells.
US08796539B2
A solar cell, wherein contamination with an undesired impurity is suppressed, and solar cell characteristics are excellent. This solar cell is provided with: a semiconductor substrate having a photoreceiving surface and a back surface; a first semiconductor layer of a first conductivity type formed on a prescribed region of the back surface of the semiconductor substrate; a second semiconductor layer of a second conductivity type formed to extend over the back surface of the semiconductor substrate and the surface of the first semiconductor layer; and a cap layer formed between the first semiconductor layer and the second semiconductor layer, and containing no impurity of the first conductivity type.
US08796530B2
The musical instrument has a acoustic transducer, which transforms an excitation signal generated by at least one resonator into an acoustic signal. The acoustic transducer is provided with an adjustable oscillation profile, in which at least one profile parameter is defined by a reference profile of a reference instrument.
US08796523B1
A wheat variety designated W010712A1, the plants and seeds of wheat variety W010712A1, methods for producing a wheat plant produced by crossing the variety W010712A1 with another wheat plant, and hybrid wheat seeds and plants produced by crossing the variety W010712A1 with another wheat line or plant, and the creation of variants by mutagenesis or transformation of variety W010712A1. This invention also relates to methods for producing other wheat varieties or breeding lines derived from wheat variety W010712A1 and to wheat varieties or breeding lines produced by those methods.
US08796522B2
According to the invention, there is provided seed and plants of the hybrid corn variety designated CH637365. The invention thus relates to the plants, seeds and tissue cultures of the variety CH637365, and to methods for producing a corn plant produced by crossing a corn plant of variety CH637365 with itself or with another corn plant, such as a plant of another variety. The invention further relates to genetic complements of plants of variety CH637365.
US08796520B1
A novel maize variety designated PH1M3T and seed, plants and plant parts thereof. Methods for producing a maize plant that comprise crossing maize variety PH1M3T with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into PH1M3T through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. Hybrid maize seed, plant or plant part produced by crossing the variety PH1M3T or a locus conversion of PH1M3T with another maize variety.
US08796519B1
A novel maize variety designated PH1CMM and seed, plants and plant parts thereof. Methods for producing a maize plant that comprise crossing maize variety PH1CMM with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into PH1CMM through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. Hybrid maize seed, plant or plant part produced by crossing the variety PH1CMM or a locus conversion of PH1CMM with another maize variety.
US08796518B1
A novel maize variety designated PH1D9K and seed, plants and plant parts thereof. Methods for producing a maize plant that comprise crossing maize variety PH1D9K with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into PH1D9K through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. Hybrid maize seed, plant or plant part produced by crossing the variety PH1D9K or a locus conversion of PH1D9K with another maize variety.
US08796511B2
The present invention relates to a plant, which is resistant to a pathogen of viral, bacterial, fungal or oomycete origin, wherein the plant has an increased homoserine level as compared to a plant that is not resistant to the said pathogen, in particular organisms of the phylum Oomycota. The invention further relates to a method for obtaining a plant, which is resistant to a pathogen of viral, bacterial, fungal or oomycete origin, comprising increasing the endogenous homoserine level in the plant.
US08796501B2
The invention provides an optimal method for stabilization of heavy metal bearing paint residue subject to acid and water leaching tests or leach conditions by addition of environment safe, worker safe, multi-media compatible, non-separating, non-embedding, stabilizing agent and optional complexing agent(s) to the blast media, thus allowing for pre-blending of stabilizer and blast media and field production of a uniform and steady state stabilizer within media for stabilization outside or within an OSHA containment building or collection device, such that leaching of heavy metals such as lead are inhibited to desired levels. The resultant stabilized paint residue and spent blast media mixture is suitable for on-site reuse, off-site reuse, or disposal as RCRA non-hazardous waste.
US08796497B2
A method for the oxidative coupling of hydrocarbons, such as the oxidative coupling of methane to toluene, includes providing an oxidative catalyst inside a reactor, and carrying out the oxidative coupling reaction under a set of reaction conditions. The oxidative catalyst includes (A) at least one element selected from the group consisting of the Lanthanoid group, Mg, Ca, and the elements of Group 4 of the periodic table (Ti, Zr, and Hf); (B) at least one element selected from the group consisting of the Group 1 elements of Li, Na, K, Rb, Cs, and the elements of Group 3 (including La and Ac) and Groups 5-15 of the periodic table; (C) at least one element selected from the group consisting of the Group 1 elements of Li, Na, K, Rb, Cs, and the elements Ca, Sr, and Ba; and (D) oxygen.
US08796493B2
The present invention provides a method for separating halocarbons. In particular, the invention provides a method for separating halogenated olefin impurities from 2-chloro-1,1,1,2-tetrafluoropropane (HCFC-244bb) using a solid adsorbent, particularly activated carbon. More particularly the invention pertains to a method for separating 2-chloro-3,3,3-trifluoro-propene (HCFO-1233xf) from HCFC-244bb, which are useful as intermediates in the production of 2,3,3,3-tetrafluoropropene (HFO-1234yf).
US08796491B2
The present invention pertains to process for the amidation of a substituted 1-bromo-adamantane comprising a step (0) of reacting a substituted adamantane with an excess of bromine to obtain a 1-bromo-adamantane and a step (i) of reacting said substituted 1-bromo-adamantane with an amide, wherein the substituted 1-bromo-adamantane is used in the form of a mixture comprising bromine as obtained in step (0), wherein in step (0) a bromine: substituted adamantane molar ratio of from [2.5:1] to less than [5:1] is employed.
US08796488B2
A novel process for the synthesis of Lacosamide using D,L-serine as starting material is described, where the methylation reaction of hydroxyl is carried out using an inexpensive base such as NaOH and an inexpensive alkylating agent, non-toxic and non-carcinogenic, such as methyl p-toluenesulfonate; the R enantiomer is isolated from the racemic mixture of Lacosamide after selective hydrolysis of the acetamide, salification of the racemic mixture with a chiral acid (HX*) in an organic solvent, resolution of the diastereoisomeric mixture, preferably by precipitation of the R enantiomer, and subsequent acetylation of the optically pure intermediate.
US08796487B2
An improved process for production of dialkyldithiophosphinic acid including sulfurizing a purified dialkylphosphinic acid by: reacting a hypophosphorous acid or salt with a stoichiometric excess of an alpha olefin in the presence of a free radical initiator to form a reaction product comprising monoalkylphosphinic acid and dialkylphosphinic acid; adding sufficient aqueous base to the reaction product to i) form the salts of the phosphinic acids, and ii) establish an aqueous phase and an organic phase, wherein a monoalkylphosphinic acid solubilizes into an aqueous phase; separating the organic phase from the aqueous phase; acidifying the organic phase and removing the olefin from the organic phase; isolating the purified dialkylphosphinic acid product; and sulfurizing the purified dialkylphosphinic acid product to form a dialkydithiophosphinic acid. The present invention also provides a process for preparing purified dialkylthiophosphinic chloride, and a process for preparing purified dialkylmonothiophosphinic acids.
US08796481B2
The present invention relates to a crystalline non-solvated form of 6,6′-[[3,3′,5,5′-tetrakis(1,1-dimethylethyl)-[1,1′-biphenyl]-2,2′-diyl]bis(oxy)]bis-dibenzo[d,f][1,3,2]-dioxaphosphepine (compound I) and toluene-solvates and acetone-solvates thereof.
US08796476B2
Pest controlling compositions exhibiting enhanced pesticidal activity levels and methods for preparing the same are disclosed. In one embodiment, a method includes providing a liquid composition that includes at least one pesticide and at least one co-ingredient that enhances pesticidal activity of the composition compared to a composition dissimilar only in not having the at least one co-ingredient. The at least one co-ingredient may include at least one metal oxide, a combination of at least one transition metal salt and at least one proteinaceous material or a combination of at least one proteinaceous material and at least one polymeric material. The method further includes spray drying the liquid composition to provide a solid composition. In one aspect of this embodiment, the solid composition provided by the spray drying exhibits enhanced pesticidal activity compared to the liquid composition.
US08796465B2
The present invention relates to processes for the preparation of triazoles. These compounds are useful as anti-infective, anti-proliferative, anti-inflammatory, and prokinetic agents.
US08796464B2
A production method of an isoxazoline-substituted benzoic acid amide compound of Formula (1) where X is a halogen atom, C1-6 haloalkyl, etc., Y is a halogen atom, C1-6 alkyl, etc., R1 is a C1-6 haloalkyl, etc., R2 and R3 independently of each other are a hydrogen atom, C1-6 alkyl, etc., R4 is C1-6 alkyl, C1-6 haloalkyl, etc., R5 is a hydrogen atom, C1-6 alkyl, etc., m is an integer of 0 to 5, n is an integer of 0 to 4, including: reacting an isoxazoline-substituted benzene compound of Formula (3) where X, Y, R1, m, and n are the same as defined above, L is a chlorine atom, a bromine atom, —C(O)OH, —C(O)J, etc., J is a halogen atom, with a 2-aminoacetic acid amide compound of Formula (2) where R2, R3, R4, and R5 are the same as defined above, or a salt thereof; crystal forms and the production method thereof.
US08796459B2
The invention provides synthetic processes and synthetic intermediates that can be used to prepare 4-oxoquinolone compounds having useful integrase inhibiting properties.
US08796448B1
Novel methods and compounds for treating Alzheimer's Disease are provided. In one aspect, the invention provides methods for treating Alzheimer's Disease by administering certain phenothiazine derivatives. In one embodiment, the methods include administering an effective amount of a 3-oxo-7-dialkyl-amino-phenothiazine derivative, or 3-oxo-7-dialkyl-amino-phenothiazine. In another embodiment, the invention provides methods for treating Alzheimer's Disease by administering an effective amount of a 3,7-diazetidin-1-yl-phenothiazine or a derivative thereof. In another aspect, the invention provides novel azetidinyl phenothiazine compounds.
US08796436B2
The invention relates to iRNA agents, which preferably include a monomer in which the ribose moiety has been replaced by a moiety other than ribose. The inclusion of such a monomer can allow for modulation of a property of the iRNA agent into which it is incorporated, e.g., by using the non-ribose moiety as a point to which a ligand or other entity, e.g., a lipophilic moiety. e.g., cholesterol, is directly, or indirectly, tethered. The invention also relates to methods of making and using such modified iRNA agents.
US08796435B2
Described are nucleic acids encoding a polypeptide for delivery of a nanoparticle to the cytosol, the peptide comprising: (a) a nanoparticle association domain, (b) a spacer domain, (c) an uptake domain, and (d) a vesicle escape domain, wherein the domains (a) through (d) appear in the same order as listed above, and wherein the peptide, upon addition of a non-hydrolyzable lipophilic moiety to the vesicle escape domain and binding to a nanoparticle, is effective to induce uptake of a nanoparticle by a cell and delivery of the nanoparticle to the cytosol of the cell. Also described are methods of delivery of a nanoparticle to the cytosol of a cell, the method comprising providing to a cell a nanoparticle attached to such a peptide. Exemplary nanoparticles include quantum dots.
US08796431B2
The present invention relates to processes for the production of peptides, and the peptides produced accordingly. Peptides produced according to the invention may be produced more efficiently than peptides produced according to prior art processes. The production process of the invention may lead to advantages in yield, purity, and/or price. Methods of marketing peptides are also disclosed.
US08796429B2
Compositions and methods for producing monoclonal antibodies and their derivatives reactive against bioactive lipid targets are described. These compositions include derivatized lipids, each of which comprises a bioactive lipid that having a polar head group and at least one hydrocarbon chain (e.g., a lysolipid such as lysophosphatidic acid or sphingosine-1-phosphate) in which a carbon atom has been derivatized with a pendant reactive group; immunogens made by linking a derivatized lipid to a carrier moiety (e.g., a carrier protein, polyethylene glycol, colloidal gold, alginate, or a silicone bead); monoclonal antibodies and derivatives produced by immunizing an animal with such an immunogen; and therapeutic and diagnostic compositions containing such antibodies and antibody derivatives. Methods for making such derivatized lipids, immunogens, and monoclonal antibodies and derivatives, methods for detecting such antibodies once generated, and therapeutic and diagnostic methods for using such antibodies and derivatives, are also described.
US08796417B2
It is to provide an inorganic thin film of titanium dioxide or the like which is controlled at the nanoscale and a three-dimensional structure of a functional material such as semiconductor nanoparticles. A three-dimensional structure of an inorganic material is manufactured by introducing onto a surface of an inorganic substrate ferritin presenting on its surface a plurality of inorganic material-binding peptides; binding the ferritin in a monolayer onto the inorganic substrate; introducing an inorganic material onto the ferritin which is bound in a monolayer, while the inorganic material-binding peptides is having a binding and/or biomineralization ability for the inorganic material; forming a biomineral layer utilizing the biomineralization ability of the inorganic material-binding peptides; and subsequently repeating one or more times the steps (a) and (b) of a multilayering operation: (a) introducing onto the biomineral layer thus formed the ferritin having a binding ability to the biomineral layer, and binding the ferritin in a monolayer onto the biomineral layer; (b) introducing the inorganic material onto the surface of the ferritin which is bound in a monolayer, and forming a biomineral layer.
US08796415B2
A peptide including the amino acids sequence X9CGYX13X14AX16X17X18MX20X21X22X23X24X25X26X27CPLCX32X33, a nucleic acid coding for the peptide, and/or a recombinant vector including the nucleic acid for the preparation of a drug intended for the treatment of cancer.
US08796414B2
Disclosed are compositions relating to novopeptides identified by the presence of frameshift mutations in tumor genes previously not identified as being oncogenic. The disclosed peptides can be used in the disclosed methods for the treatment of cancer.
US08796413B2
Provided are a method for producing a polymer material having a high degree of crystallization, a small variability in degree of crystallization, and a three-dimensionally isotropic crystallinity to thus give high thermal resistance, high isotropy of resin physical properties, and a small variability in resin physical properties; and the polymer material. The method for producing a polymer material includes the steps of: heating a thermoplastic resin to or above a melting point determined from a melting peak measured by DSC into a thermoplastic resin melt; applying a pressure higher than atmospheric pressure to the thermoplastic resin melt; starting cooling the thermoplastic resin melt with a pressure higher than atmospheric pressure applied thereto; releasing the pressure on the thermoplastic resin melt after cooling the thermoplastic resin melt to a cooling-end-temperature lower than an upper limit of a crystallization temperature range, wherein during the cooling, the pressure on the thermoplastic resin melt is maintained at the pressure higher than atmospheric pressure or raised. The polymer material is one obtained by the above production method.
US08796412B2
Disclosed are a multi-block copolymer, its producing method and an electrolyte membrane using the same. The multi-block copolymer includes a hydrophobic block having a plurality of repeating units represented as chemical formula 1; and a hydrophilic block having a plurality of repeating units represented as chemical formula 2. The multi-block copolymer is acidified, and can be used to an electrolyte membrane and a fuel cell. The use of the multi-block copolymer as an electrolyte membrane ensures excellent dimensional stability.
US08796407B2
An extrudable polyvinyl chloride composition comprising from 80 to 99.9 percent by weight polyvinyl chloride for use in extruding a first part and a second part, wherein a fusion joint between the first extruded part and the second extruded part is formed by: A) composition at least a portion of a first terminal edge of the first extruded part and a first terminal edge of the second extruded part; B) engaging the melted terminal edges; and C) maintaining pressure between the engaged terminal edges to create a fused joint having a strength that is at least 50% of the tensile strength of the extruded part as measured by ASTM D638-2a. The extruded parts can be pipe sections.
US08796406B2
A copolymer suitable for use in forming a solid polymer electrolyte film comprising a first monomer represented by Formula (1): wherein n is 2 to 1,000; m is 2 to 1,000; x and y are individually 1 to 100; p is 0 to 10; and q is 1 to 10, R1 is an alkyl group having 1 to 10 carbon atoms, and A is an alkyl acryloyl group an acryloyl group, alkyl acryloyl group, methacryloyl group, alkyl methacryloyl group, a vinyl group, an allyl group, a styryl group, or a combination of two or more thereof; and a second monomer chosen from a hydroxyl-substituted alkyl acrylate, a hydroxyl-substituted alkyl methacrylate, or a combination of two or more thereof. The copolymer may be used to form a solid polymer electrolyte composition comprising (i) the copolymer, (ii) a plasticizer, and (iii) a salt. The solid polymer electrolyte may be used to form a solid polymer electrolyte film, which may be suitable for use in electrochemical devices.
US08796397B2
Provided are a silicone resin that yields a cured product excellent in flexibility, toughness, and heat resistance and high in transparency, a process for producing the said silicone resin, and a curable resin composition comprising the said silicone resin. The silicone resin is obtained by reacting an organopolysiloxane containing SiH groups represented by general formula (3) with an organopolysiloxane containing hydroxyl groups at both ends represented by general formula (5) and an alcohol containing radically reactive groups represented by general formula (6) in the presence of a hydroxylamine compound represented by general formula (4) as a catalyst and this silicone resin is used in formulating a curable resin composition. In the general formulas, R is an alkyl group of 1-12 carbon atoms optionally containing an oxygen atom or an aryl group, R1 is an alkyl group, Y is a hydrocarbon group of 1-12 carbon atoms optionally containing an oxygen atom, Z is a (meth)acryloyl group, a vinyl group, or an allyl group, and n, s, m, and r are numbers respectively expressed as 0
US08796396B2
A polylactic acid has a terminal-modified structure represented by the following formula (1): wherein in the formula (1), R represents a residue of an organic phosphorus compound containing an epoxy group, and n represents an integer from 100 to 5000.
US08796386B2
A thiocarbonyl compound represented by the following formula (a) is useful as a RAFT agent. By using this, a process for producing a polymer having a excellent reactivity or monomer conversion rate and its polymer are provided. In the following formula (a), n indicates 1 to 6, and Z indicates an organic group selected from a substituted or unsubstituted aryl or a substituted or unsubstituted heteroaryl
US08796383B2
Films (or a cap layer of co-extruded films) and methods of forming the same are described herein. The films generally include a modified olefin based polymer including polypropylene and from 1 wt. % to 30 wt. % polylactic acid (PLA), wherein the modified olefin based polymer exhibits a seal initiation temperature (SIT) that is at least 5° C. less than a seal initiation temperature of the polypropylene absent the PLA and a hot tack range of at least 20° C.
US08796382B2
Disclosed herein is a two-component structural adhesive based on organic compounds containing radically polymerizable multiple bonds, in particular substituted acrylates and/or methacrylates, which on account of their lack of acids are particularly suited for adhering rare earth permanent magnets based on neodymium-iron-boron.
US08796381B2
Encapsulated cure systems are provided wherein a curative is incorporated into a solid or semi-solid carrier material whereby mere fracturing or failure of the capsule wall encapsulating such cure systems will not provide for or allow sufficient release of the curative. Also provided are adhesive systems incorporating said encapsulated cure systems.
US08796380B2
The present disclosure relates to processes for recovery of derivatives of native lignin from lignocellulosic feedstocks wherein the derivatives have a certain aliphatic hydroxyl content. Surprisingly, it has been found that stable and predictable antioxidant activity is provided by selecting for derivatives of native lignin having a certain aliphatic hydroxyl content.
US08796377B2
The invention relates to a hot melt pressure sensitive adhesive. The hot melt pressure sensitive adhesive is particularly well suited for flexible substrates such as plastic and paperboard packaging.
US08796360B2
The invention relates to an epoxy/rubber composition comprising an epoxy resin which comprises an epoxy compound X, the epoxy compound X has epoxy equivalent weight (EEW) from 150 up to 200 and viscosity from 2,000 up to 10,000 cps (25 C), a curing agent, a liquid rubber that is liquid at room temperature and comprises at least 1.5 reactive terminated group, a fluorine contained organic matter, selected from a group, including where: n=1-20; X=—COOH, —CONH2, —CON(C6H5)2, —CH2OH. b) CF3(CF2)nCOOH, where: n=7-9. where: n=3-20.
US08796359B2
The invention provides a method of polymerizing monomer to form polymer at the surface of solid particulate material, said method comprising: providing a dispersion of said solid particulate material in a continuous hydrophilic liquid phase, said dispersion comprising a hydrophilic RAFT agent as a stabilizer for said solid particulate material, and said continuous hydrophilic liquid phase comprising one or more ethylenically unsaturated monomers; and polymerizing said one or more ethylenically unsaturated monomers under the control of said hydrophilic RAFT agent to thereby form polymer at the surface of said solid particulate material.
US08796353B2
This invention includes a wettable biomedical device containing a high molecular weight hydrophilic polymer and a hydroxyl-functionalized silicone-containing monomer.
US08796352B2
Provided is a material suitable for an optical element, which can be applied by inkjet, has an ultraviolet curable characteristic, and yields a cured product excellent in transparency and hardness and having a refractive index of more than 1.5. Specifically, an optical element excellent in transparency and hardness and having a refractive index of more than 1.5 is obtained by preparing a resin composition including at least: (A) 5 to 45 mass % of a vinyl group-containing copolymer obtained by copolymerization of a divinyl aromatic compound; (B) 55 to 94 mass % of a liquid photocurable polyfunctional (meth)acrylate having two or more (meth)acryloyl groups; (C) 0.97 to 20 mass % of a photopolymerization initiator; and (D) 0.03 to 1 mass % of a surfactant, and applying the resin composition onto a support substrate by inkjet, followed by photocuring.
US08796345B2
A method to form a urethane material, the method comprises blending and reacting at least one isocyanate, at least one isocyanate reactive compound and a metallized polyhedral oligomeric silsesquioxane to provide said urethane material, the metallized polyhedral oligomeric silsesquioxane is a dimeric structure with general formula wherein M represents a metal providing a 6-coordinated metal center, x and y being 1, R1O and R2O represent an alkoxide bridging the 6-coordinated metal centers, R3OH and R4OH represent an alcohol ligand and each of R5, to R18 is selected from the group consisting of alkyl-, polyether- and polyester ligands.
US08796340B2
The invention provides novel pharmaceutical compositions comprising the active ingredient propofol. Preferably, propofol is dissolved in at least one semifluorinated alkane. The compositions, which are preferably liquid or gel-like, may optionally comprise further excipients. They may be used as fill material in capsules, as buccal or nasal sprays, or as aerosols for pulmonary administration. They are particularly useful for the transmucosal administration of propofol.
US08796323B2
Disclosed are methods of treating and/or preventing infections in mammals caused by microorganisms, by administering to a mammal a therapeutically effective amount of at least one defensin-like molecule, e.g., in a composition that includes such molecule. Also disclosed are the use of such defensin-like molecules for treating and/or preventing infections in mammals; and kits that may include such molecules, or compositions that include such molecules, as well as instructions for using such molecules to treat a mammal.
US08796322B2
Novel 1,2,4-oxadiazole benzoic acid compounds, methods of using and pharmaceutical compositions comprising an 1,2,4-oxadiazole benzoic acid derivative are disclosed. The methods include methods of treating or preventing a disease ameliorated by modulation of premature translation termination or nonsense-mediated mRNA decay, or ameliorating one or more symptoms associated therewith.
US08796312B2
The present invention relates to modulators of ATP-Binding Cassette (“ABC”) transporters or fragments thereof, including Cystic Fibrosis Transmembrane Conductance Regulator (“CFTR”), compositions thereof, and methods therewith. The present invention also relates to methods of treating ABC transporter mediated diseases using such modulators.
US08796310B2
The invention provides certain amino-pyridine-containing compounds of the Formula (I) or pharmaceutically acceptable salts thereof, wherein R1, R2, R3, R4, R5, R6, R7, R8, R9, and n are as defined herein. The invention also provides pharmaceutical compositions comprising such compounds, and methods of using the compounds for treating diseases or conditions mediated by Spleen Tyrosine Kinase (Syk) kinase.
US08796308B2
This invention relates to a compound of Formula I: or a pharmaceutically acceptable salt thereof, wherein R is COOH or CH2OH.
US08796307B2
Compounds of formula in free or salt or solvate form, where Ar is a group of formula Y is carbon or nitrogen and R1, R2, R3, R4, R5, R6, R7, R8, R9, R10, X, n, p, q and r are as defined in the specification, their preparation and their use as pharmaceuticals, particularly for the treatment of obstructive or inflammatory airways diseases.
US08796305B2
The present application relates to novel substituted imidazo[1,2-a]pyridine-3-carboxamides, to processes for their preparation, to their use alone or in combinations for the treatment and/or prophylaxis of diseases and to their use for preparing medicaments for the treatment and/or prophylaxis of diseases, in particular for the treatment and/or prophylaxis of cardiovascular disorders.
US08796304B2
The invention is directed to compounds with the structure which are PDE10A enzyme inhibitors. The invention provides a pharmaceutical composition comprising a therapeutically effective amount of a compound of the invention and a pharmaceutically acceptable carrier. The present invention also provides processes for the preparation of the compounds of formula I. The present invention further provides a method of treating a subject suffering from a neurodegenerative disorder comprising administering to the subject a therapeutically effective amount of a compound of formula I. The present invention also provides a method of treating a subject suffering from a drug addiction comprising administering to the subject a therapeutically effective amount of a compound of formula I. The present invention further provides a method of treating a subject suffering from a psychiatric disorder comprising administering to the subject a therapeutically effective amount of a compound of formula I.
US08796298B2
The present invention relates to a method of treating cancer in a human and to pharmaceutical combinations useful in such treatment. In particular, the method relates to a cancer treatment method that includes administering N-{3-[5-(2-Amino-4-pyrimidinyl)-2-(1,1-dimethylethyl)-1,3-thiazol-4-yl]-2-fluorophenyl}-2,6-difluorobenzenesulfonamide or a pharmaceutically acceptable salt thereof, and N-{(1S)-2-amino-1-[(3-fluorophenyl)methyl]ethyl}-5-chloro-4-(4-chloro-1-methyl-1H-pyrazol-5-yl)-2-thiophenecarboxamide, or a pharmaceutically acceptable salt thereof, to a human in need thereof.
US08796295B2
Disclosed are negative allosteric modulators of the metabotropic glutamate receptor subtype 5 (mGluR5); synthetic methods for making the compounds; pharmaceutical compositions comprising the compounds; and methods of treating neurological and psychiatric disorders associated with glutamate dysfunction using the compounds and compositions. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.
US08796292B2
The invention features compounds of formula (I): The compounds are useful as antibacterial agents, especially again Clostridium difficile-associated diseases.
US08796291B2
Disclosed are A3 adenosine receptor antagonists and/or partial agonists of formula (I): wherein R1 to R5 are as described herein, as well as pharmaceutical compositions thereof and methods of use thereof. The antagonists or partial agonists find use in treating a number of diseases including cancer, glaucoma, inflammatory diseases, asthma, stroke, myocardial infarction, allergic reactions, rhinitis, poison ivy induced responses, urticaria, scleroderma, arthritis, brain arteriole diameter constriction, bronchoconstriction, and myocardial ischemia, as well as in preventing cardiac ischemia. Also disclosed are radiolabeled compounds of formula (I) and the use thereof in diagnostic imaging of tissues and organs.
US08796288B2
The invention comprises (1) anhydrous crystalline forms of N-[1-(2-ethoxyethyl)-5-(N-ethyl-N-methylamino)-7-(4-methylpyridin-2-yl-amino)-1H-pyrazolo[4,3-d]pyrimidine-3-carbonyl]methanesulfonamide, (2) pharmaceutical compositions comprising at least one such form, (3) methods for the treatment of a phosphodiesterase-5-mediated condition using at least one such form, and (4) methods for preparing such forms. The compound N-[1-(2-ethoxyethyl)-5-(N-ethyl-N-methylamino)-7-(4-methylpyridin-2-yl-amino)-1H-pyrazolo[4,3-d]pyrimidine-3-carbonyl]methanesulfonamide has the following structure (I).
US08796282B2
A method of treating a dermatological disorder in a subject includes the step of administering a therapeutically effective amount of at least one PPARγ agonist or derivative thereof to the subject.
US08796266B2
Methods of using compounds which are progesterone receptor agonists for contraception and the treatment of progesterone-related maladies alone or in combination with an estrogen receptor agonist or progesterone receptor antagonist are provided. These compounds have the structure: wherein R1, R2, R3, R4, R5, and Q1 are defined herein.
US08796263B2
Aminoquinazolinyl compounds of formula (I) are described, which are useful as prolyl hydroxylase inhibitors. Such compounds may be used in pharmaceutical compositions and methods for the treatment of disease states, disorders, and conditions mediated by prolyl hydroxylase activity. Thus, the compounds may be administered to treat, e.g., anemia, vascular disorders, metabolic disorders, and wound healing.
US08796258B2
Novel compounds of structural formula (I) are activators of AMP-protein kinase and are useful in the treatment, prevention and suppression of diseases mediated by the AMPK-activated protein kinase. The compounds of the present invention are useful in the treatment of Type 2 diabetes, hyperglycemia, metabolic syndrome, obesity, hypercholesterolemia, and hypertension.
US08796256B2
The present invention relates to compounds of Formula (I), methods for preparing these compounds, compositions, intermediates and derivatives thereof and for treating a condition including but not limited to ankylosing spondylitis, artherosclerosis, arthritis (such as rheumatoid arthritis, infectious arthritis, childhood arthritis, psoriatic arthritis, reactive arthritis), bone-related diseases (including those related to bone formation), breast cancer (including those unresponsive to anti-estrogen therapy), cardiovascular disorders, cartilage-related disease (such as cartilage injury/loss, cartilage degeneration, and those related to cartilage formation), chondrodysplasia, chondrosarcoma, chronic back injury, chronic bronchitis, chronic inflammatory airway disease, chronic obstructive pulmonary disease, diabetes, disorders of energy homeostasis, gout, pseudogout, lipid disorders, metabolic syndrome, multiple myeloma, obesity, osteoarthritis, osteogenesis imperfecta, osteolytic bone metastasis, osteomalacia, osteoporosis, Paget's disease, periodontal disease, polymyalgia rheumatica, Reiter's syndrome, repetitive stress injury, hyperglycemia, elevated blood glucose level, and insulin resistance.
US08796250B2
The present invention provides methods for treating and/or preventing conditions and diseases in humans and other mammals that are associated with and/or mediated by signal transduction pathways comprising platelet-derived growth factor receptor (PDGFR) by administering diaryl ureas of Formula I. The present invention also provides devices and methods for treating, ameliorating, preventing, or modulating restenosis following angioplastic surgery or other invasive procedures that affect or injure the vascular system, and graft rejection following transplantation of a donor tissue into a host, where a stent or other omplantable device comprises an effective amount of diaryl ureas of Formula I.
US08796245B2
The present invention is directed to a compound represented by Structural Formula (A): or a pharmaceutically acceptable salt thereof. The variables for Structural Formula (A) are defined herein. Also described is a pharmaceutical composition comprising the compound of Structural Formula (A) and its therapeutic use.
US08796244B2
The invention relates to new bicyclic heterocyclic derivative compounds, to pharmaceutical compositions comprising the compounds and to the use of the compounds in the treatment of diseases, e.g. cancer.
US08796242B2
A hydrogel tissue adhesive formed by reacting an aldehyde-functionalized polysaccharide containing pendant aldehyde groups with a water-dispersible, multi-arm amine is described. The hydrogel may be useful as a tissue adhesive or sealant for medical applications that require a more rapid degradation time, such as the prevention of undesired tissue-to tissue adhesions resulting from trauma or surgery.
US08796240B2
An object is to provide a cell growth inhibitor also effective for androgen-independent prostate cancer. The present invention provides a cell growth inhibitor having, as an active ingredient, an expression inhibitor or function inhibitor of an antisense RNA (CTBP1-AS) expressed in the vicinity of an androgen receptor (AR) binding site of a C-terminal binding protein (CTBP1) gene.
US08796239B2
The invention relates to modified siRNA compounds which down-regulate target gene expression, to pharmaceutical compositions comprising such compounds and to methods of treating and/or preventing the incidence or severity of various diseases or conditions associated with the genes and/or symptoms associated with such diseases or conditions.
US08796237B2
The invention provides an isolated nucleic acid encoding a polypeptide capable of inhibiting angiogenesis or neovascularization, wherein the nucleic acid comprises a first polynucleotide sequence comprising a coding sequence at least 95 percent identical to a sequence selected from the group consisting of a polynucleotide SEQ ID NO:6, a polynucleotide that encodes a polypeptide of SEQ ID NO:12, and a polynucleotide that encodes a fragment of the polypeptide of SEQ ID NO:12; and wherein the nucleic acid does not encode for the amino acid sequence of amino acids 71-93 of SEQ ID NO:1. Pharmaceutical compositions, vectors, and methods for inhibiting neovascularization or angiogenesis comprising or utilizing the nucleic acids also are provided.
US08796230B2
A method for reducing alcohol consumption in a subject includes a step of identifying a subject exhibiting at least one symptom of alcoholism and then administering a therapeutically effective amount of an Ivermectin analogue-containing composition to the subject. A method of screening Ivermectin analogues for reducing alcohol consumption is also provided.
US08796229B2
Compounds and methods for use in selectively inhibiting a lytic enzyme based on feedback inhibition are described. The conjugated compound serves as a substrate for a lytic enzyme. Cleavage of the conjugated compound by the lytic enzyme releases an inhibitor of the enzyme.
US08796227B2
Novel peptidic or peptidomimetic agents or small molecules for modulating the biological effect of a chemokine. According to the present invention, the therapeutic agents preferably are endowed with the capacity to bind to certain chemokines in order to modulate the biological interaction between the target ligand, chemokine, and the respective target receptor, chemokine receptor. These peptides may be described as agonist ligands or antagonists. Next, preferably certain peptides share consensus sequences are described which characterize the families or categories of these modulator peptides.
US08796226B2
Long acting parenteral pharmaceutical compositions comprising a therapeutically effective amount of glatiramer are provided. In particular, the long acting pharmaceutical composition comprises a therapeutically effective amount of glatiramer acetate in depot form suitable for administering at a medically acceptable location in a subject in need thereof. The depot form is suitable for subcutaneous or intramuscular implantation or injection.
US08796225B2
The present invention relates to the use of chaperonin 10 to modulate the function of antigen presenting cells. More particularly the invention resides in the modulation of cell surface expression of MHC molecules such as HLA.
US08796216B2
The present invention relates to a method for suppressing neuroendocrine disease. The therapy employs use of a non-cytotoxic protease, which is targeted to a neuroendocrine tumor cell, preferably via a somatostatin or cortistatin receptor, a GHRH receptor, a ghrelin receptor, a bombesin receptor, a urotensin receptor a melanin-concentrating hormone receptor 1; a KiSS-1 receptor or a prolactin-releasing peptide receptor. When so delivered, the protease is internalized and inhibits secretion from said tumor cell. The present invention also relates to polypeptides and nucleic acids for use in said methods.
US08796209B2
The invention relates to an isolated amino acid that can act as an antagonist to FGF signaling, comprising at least a portion of the FGF protein amino acid sequence, and including a mutation in either a) the integrin αvβ3 binding region of FGF-1; or b) the FGFR binding region of FGF-1.
US08796207B2
The present invention relates to a compound which is a polysaccharide derivative of EPO, or of an EPO like protein, wherein the polysaccharide is anionic and comprises between 2 and 200 saccharide units. The present invention also relates to pharmaceutical compositions comprising the novel compounds, and methods for making the novel compounds.
US08796201B2
Administering an effective dose of glutenase to a Celiac or dermatitis herpetiformis patient reduces levels of toxic gluten oligopeptides, thereby attenuating or eliminating the damaging effects of gluten.
US08796194B2
The lubricating oil composition of the invention includes a lubricating base oil with a kinematic viscosity at 100° C. of 1-6 mm2/s, a % Cp of 70 or greater and a % CA of no greater than 2, and a viscosity index improver which, when added to the lubricating base oil, results in an A/B ratio of less than 3.2 and a C/B ratio of less than 1.5. A is the thickening effect on the kinematic viscosity at 100° C., B is the thickening effect on the HTHS viscosity at 150° C., and C is the thickening effect on the HTHS viscosity at 100° C.
US08796192B2
A natural gas engine lubricating oil composition is disclosed which comprises (a) a major amount of an oil of lubricating viscosity, (b) one or more phosphorus-containing anti-wear additives, (c) one or more oil soluble overbased alkaline earth metal-containing detergents; and (d) one or more oil soluble neutral alkali metal-containing detergents, wherein the natural gas engine lubricating oil composition contains no more than about 0.03 weight percent of phosphorus, based on the total weight of the natural gas engine lubricating oil composition.
US08796191B2
The disclosed invention relates to a biodegradable grease composition. The grease composition comprises the reaction product of a dispersion of metal oxide and/or hydroxide particulates with at least one animal or vegetable oil. The dispersion comprises an organic medium and has a water content of up to about 0.5% by weight water. The particulates have a mean particle size up to about 15 microns. A process for making a grease composition using a dispersion of metal oxide and/or hydroxide particulates is disclosed.
US08796190B2
A thermally conductive silicone grease composition comprising at least the following components: an organopolysiloxane (A) represented by the following general formula: [wherein R1 designates identical or different univalent hydrocarbon groups; X designates identical or different univalent hydrocarbon groups or alkoxysilyl-containing groups of the following general formula: —R2—SiR1a(OR3)(3-a) (wherein R1 designates the previously mentioned groups; R2 designates oxygen atoms or alkylene groups; R3 designates alkyl groups; and ‘a’ is an integer ranging from 0 to 2); and ‘m’ and ‘n’ are integers equal to or greater than 0, respectively]; a thermally conductive filler (B); and an organopolysiloxane (C) having silicon-bonded hydrogen atoms on both molecular terminals and in the molecular chains; is characterized by excellent resistance to heat and reduced oil bleeding.
US08796186B2
A system and method for processing biological sensors. The system includes a support component configured to support a fluidic component. The fluidic component includes at least a first container and a second container. The first container is capable of holding a first volume of a first fluid, and the second container is capable of holding a second volume of a second fluid. Additionally, the system includes a hybridization component configured to perform a hybridization process on a first sensor and a second sensor. Moreover, the system includes a transport component configured to move the first sensor, directly or indirectly, from the hybridization component into the first container and in contact with the first volume of the first fluid.
US08796182B2
The invention relates to variants that predispose to risk of type 2 diabetes, basal cell carcinoma and breast cancer. It has been discovered that certain genetic variants confer risk of these diseases when inherited from one parent, but not the other. The invention provides methods of disease management, including diagnostic methods, utilizing such parental origin effects.
US08796181B2
The invention pertains to creating new extremely low resistance (“ELR”) materials, which may include high temperature superconducting (“HTS”) materials. In some implementations of the invention, an ELR material may be modified by depositing a layer of modifying material unto the ELR material to form a modified ELR material. The modified ELR material has improved operational characteristics over the ELR material alone. Such operational characteristics may include operating at increased temperatures or carrying additional electrical charge or other operational characteristics. In some implementations of the invention, the ELR material is a cuprate-perovskite, such as, but not limited to YBCO. In some implementations of the invention, the modifying material is a conductive material that bonds easily to oxygen, such as, but not limited to, chromium.
US08796166B2
The invention relates to compositions based on Ce-stabilized ZrO2, and single- and multi-colored blanks made from oxide ceramics, and a process for their preparation, in which oxide ceramic powder is coated with a coloring substance, the coated powders are preferably graded and at least one colored powder is filled into a compression mould, the colored powder or powders are compressed to produce a shaped body, and the compressed shaped body is sintered to produce a blank, and to the use of these blanks for the preparation of dental restorations. The compositions exhibit high fracture toughness and high flexural strength.
US08796151B2
Systems for and methods of laser-enhanced plasma processing of semiconductor materials are disclosed. The method includes supporting a semiconductor material in a processing chamber interior and subjecting the semiconductor material to a plasma process. The method also includes simultaneously heating the wafer surface with a laser beam through a window in the processing chamber to increase the reaction rate of the plasma process. Other methods include performing laser heating of the semiconductor material before or after the plasma process but while the semiconductor material resides in the same chamber interior.
US08796147B2
Insulating layers can be formed over a semiconductor device region and etched in a manner that substantially reduces or prevents the amount of etching of the underlying channel region. A first insulating layer can be formed over a gate region and a semiconductor device region. A second insulating layer can be formed over the first insulating layer. A third insulating layer can be formed over the second insulating layer. A portion of the third insulating layer can be etched using a first etching process. A portion of the first and second insulating layers beneath the etched portion of the third insulating layer can be etched using at least a second etching process different from the first etching process.
US08796146B2
Method and apparatus for direct writing of passive structures having a tolerance of 5% or less in one or more physical, electrical, chemical, or optical properties. The present apparatus is capable of extended deposition times. The apparatus may be configured for unassisted operation and uses sensors and feedback loops to detect physical characteristics of the system to identify and maintain optimum process parameters.
US08796134B2
Methods of forming integrated circuit devices include forming first and second electrically conductive lines at side-by-side locations on an integrated circuit substrate. Steps are performed to selectively etch each of the first and second electrically conductive lines into a respective pair of interconnects having facing ends that are separated from each other. This selective etching step is performed using a photolithography mask having a modified-rectangular mask pattern thereon, which is configured to define a shape of the facing ends of each of the pair of interconnects.
US08796123B2
An impurity of a first conductivity type is implanted onto a silicon carbide substrate through an opening in a mask layer. First and second films made of first and second materials respectively are formed. It is sensed that etching of the first material is performed during anisotropic etching, and then anisotropic etching is stopped. An impurity of a second conductivity type is implanted onto the silicon carbide substrate through the opening narrowed by the first and second films. Thus, the impurity regions can be formed in an accurately self-aligned manner.
US08796121B1
A method of forming a REO dielectric layer and a layer of a-Si between a III-N layer and a silicon substrate. The method includes depositing single crystal REO on the substrate. The single crystal REO has a lattice constant adjacent the substrate matching the lattice constant of the substrate and a lattice constant matching a selected III-N material adjacent an upper surface. A uniform layer of a-Si is formed on the REO. A second layer of REO is deposited on the layer of a-Si with the temperature required for epitaxial growth crystallizing the layer of a-Si and the crystallized silicon being transformed to amorphous silicon after transferring the lattice constant of the selected III-N material of the first layer of REO to the second layer of REO, and a single crystal layer of the selected III-N material deposited on the second layer of REO.
US08796112B2
A method of forming a three-dimensional electronic device includes forming at least one electronic device on a two-dimensional, flexible substrate, the electronic device being formed according to a three-dimensional structure, cutting the two-dimensional, flexible substrate, the cuts being located to allow the two-dimensional substrate to be shaped, the cuts having at least one stress relief feature, and shaping the two-dimensional, flexible substrate to form the three-dimensional structure, the stress relief features arranged to alleviate stress in the three-dimensional structure. A method of forming a three-dimensional electronic device includes forming at least one electronic device on a two-dimensional, flexible substrate, the electronic device being formed according to a three-dimensional structure, cutting the two-dimensional, flexible substrate, the cuts being arranged to as to increase a radius of curvature to meet a stress relief parameter when the substrate is shaped, and shaping the two-dimensional, flexible substrate to form the three-dimensional structure.
US08796105B2
A method for depositing a polysilazane on a semiconductor wafer is provided. The method includes steps of disposing a silazane onto the semiconductor wafer, and heating the silazane to form the polysilazane on the semiconductor wafer. An apparatus for preparing a polysilazane on a semiconductor wafer is also provided.
US08796100B2
The present invention discloses a method of manufacturing an N-type LDMOS device. The method comprises forming a gate above the semiconductor substrate; forming a body, comprising forming a Pwell apart from the gate and forming a Pbase partly in the Pwell, wherein the Pbase is wider and shallower than the Pwell; and forming an N-type source and a drain contact region. Wherein the body curvature of the LDMOS device is controlled by adjusting the layout width of the Pwell.
US08796083B2
A method is provided for controlling the channel length in a thin-film transistor (TFT). The method forms a printed ink first source/drain (S/D) structure overlying a substrate. A fluoropolymer mask is deposited to cover the first S/D structure. A boundary region is formed between the edge of the fluoropolymer mask and the edge of the printed ink first S/D structure, having a width. Then, a primary ink is printed at least partially overlying the boundary region, forming a printed ink second S/D structure, having an edge adjacent to the fluoropolymer mask edge. After removing the fluoropolymer mask, the printed ink first S/D structure edge is left separated from the printed ink second S/D structure edge by a space equal to the boundary region width. A semiconductor channel is formed partially overlying the first and second S/D structures, having a channel length equal to the boundary region width.
US08796078B2
An object is to provide a highly reliable semiconductor device including a thin film transistor having stable electric characteristics. In addition, another object is to manufacture a highly reliable semiconductor device at low cost with high productivity. In a method for manufacturing a semiconductor device including a thin film transistor including an oxide semiconductor layer as a channel formation region, the oxide semiconductor layer is heated under a nitrogen atmosphere to lower its resistance, thereby forming a low-resistance oxide semiconductor layer. Further, resistance of a region of the low-resistance oxide semiconductor layer, which is overlapped with a gate electrode layer, is selectively increased, thereby forming a high-resistance oxide semiconductor layer. Resistance of the oxide semiconductor layer is increased by forming a silicon oxide film in contact with the oxide semiconductor layer by a sputtering method.
US08796077B2
Provided is a semiconductor device with a semiconductor chip mounted on a small-sized package substrate that includes a slot, a large number of external connection terminals, and bonding fingers. The bonding fingers are connected to the external connection terminals. The bonding fingers constitute a bonding finger arrangement in a central section and end sections of a bonding finger area along each longer side of the slot. The arrangement includes a first bonding finger array, which is located at a close distance from each longer side of the slot, and a second array, which is located at a farther distance than the distance of the first bonding finger array from each longer side of the slot. The central section of the bonding finger area includes the second bonding finger array, and the end sections of the bonding finger area include the first bonding finger array.
US08796076B2
After formation of an opening by exposing and development of the photosensitive surface protection film and adhesive layer which is formed on the circuit side of the semiconductor wafer, the semiconductor chips having a photosensitive surface protection film and adhesive layer thereon is fabricated by cutting individual chips from the semiconductor wafer. After the second semiconductor chip is placed over the first semiconductor chip up by the suction collet, the second semiconductor chip is bonded with the first semiconductor chip by the first surface protection film and adhesive layer. The suction side of the suction collet has lower adhesion to the second semiconductor chip than that between the now bonded semiconductor chips.
US08796073B2
The cost associated with alignment in a stacked IC device can be reduced by aligning multiple die instead of a single die during the alignment step. In one embodiment, the alignment structures are placed in the scribe line instead of within the die itself. Aligning four die instead of one eliminates the need for as many alignment indicators and thus more silicon on the wafer can be used for active areas. In addition, this method allows for yield improvement through binning of dies having the same yield configuration.
US08796071B2
The present invention related to a method for manufacturing a thermal dissipation substrate and a thermal dissipation substrate. The method includes steps of: (a) providing a substrate body having a surface; (b) forming a plurality of concave regions on the surface; and (c) filling the plurality of concave regions with a plurality of diamond materials. The thermal dissipation substrate includes: a substrate having a surface at a first horizontal; a plurality of regions formed on the surface at a second horizontal; and a plurality of diamond materials having a relatively high thermal coefficient and disposed on the plurality of regions.
US08796065B2
An electrochemical cell and a method of manufacturing the same are provided. The electrochemical cell comprising: a first conductive layer; a metal oxide layer formed on the first conductive layer, the metal oxide layer comprising a plurality of adjacent metal oxide cells, spaced from one another; a functional dye layer formed on the metal oxide layer; a second conductive layer; and an electrolyte between the functional dye layer and the second conductive layer, wherein at least one of the first and second conductive layers is transparent, and wherein the metal oxide layer is formed from a metal oxide particle dispersion liquid.
US08796061B2
Solar cells are packaged by placing the solar cells between sheets of encapsulants. The encapsulants are exposed to ultraviolet (UV) light to cure the encapsulants and bond the encapsulants together to encapsulate the solar cells. The UV curing steps may be performed to bond one of the encapsulants to a transparent top cover and the solar cells, and to bond the other encapsulant to the solar cells and a backsheet. A protective package that includes the transparent top cover, encapsulated solar cells, and the backsheet is then optionally mounted on a frame.
US08796051B2
A bonding apparatus for a display device includes a film bonding device for bonding an anisotropic conductive film to a display substrate; and a pressure device for bonding a driving chip to the anisotropic conductive film of the display substrate, wherein the pressure device includes a pressure head with a heat source, and a pressure tip attached to a lower surface of the pressure head and including a plurality of sub-pressure tips that are separated from each other.
US08796050B2
Methods and apparatus for manufacturing a semiconductor light-emitting device that emits white light by forming a phosphor layer on an emission surface of the semiconductor light-emitting device at a wafer-level. The method includes: forming a plurality of light-emitting devices on a wafer; thinning the wafer, on which the plurality of light-emitting devices are formed; disposing the thinned wafer on a carrier film; and forming a phosphor layer on an emission surface of the plurality of light-emitting devices on the wafer.
US08796048B1
The present disclosure provides methods and structures for measurement, control, and monitoring the thickness of thin film layers formed as part of a semiconductor manufacturing process. The methods and structures presented provide the capability to measure and monitor the thickness of the thin film using trench line structures. In certain embodiments, the thin film thickness measurement system can be integrated with thin film growth and control software, providing automated process control (APC) or statistical process control (SPC) capability by measuring and monitoring the thin film thickness during manufacturing. Methods for measuring the thickness of thin films can be important to the fabrication of integrated circuits because the thickness and uniformity of the thin film can determine electrical characteristics of the transistors being fabricated.
US08796045B2
A method of forming a magnetic random access memory (MRAM) device includes forming at least one write line, forming a first insulating layer over the at least one write line and forming a heating line on the first insulating layer. The method includes forming at least one tunnel junction above the at least one write line, the at least one tunnel junction connected to the heating line, forming a second insulating layer on the heating line and forming heat current supply vias at each end of the current line. The method further includes forming heat current supply lines connected to each heat current supply via and forming at least one read line above the at least one tunnel junction and physically connected to the at least one tunnel junction.
US08796041B2
A semiconductor device includes a substrate including an M2 patterned area. A VA pillar structure is formed over the M2 patterned area. The VA pillar structure includes a substractively patterned metal layer. The VA pillar structure is a sub-lithographic contact. An MTJ stack is formed over the oxide layer and the metal layer of the VA pillar. A size of the MTJ stack and a shape anisotropy of the MTJ stack are independent of a size and a shape anisotropy of the sub-lithographic contact.
US08796040B2
A system of quantitatively determining a biomolecule, which has: allowing fluorescent silica particles capable of emitting fluorescence detectable by a flow cytometer to capture a target biomolecule fluorescent-labelled for quantitative determination; detecting the fluorescence emitted from the fluorescent silica particles themselves by using the flow cytometer; and measuring the intensity of the fluorescence of the labelled target biomolecule, thereby quantitatively determining the target biomolecule.
US08796035B2
The invention relates to a method and to a device for sulfur characterization and quantification in a sample of sedimentary rocks or of petroleum products wherein the following stages are carried out: heating said sample in a pyrolysis oven (1) in a non-oxidizing atmosphere, oxidizing part of the pyrolysis effluents and continuously measuring the amount of SO2 generated by said part after oxidation, then transferring the pyrolysis residue of said sample into an oxidation oven (1′) and continuously measuring the amount of SO2 contained in the effluents resulting from said oxidation heating.
US08796034B2
A handheld, small but accurate and reliable device for diagnostic NO measurements using a NO sensor, where the parameters governing the taking of the sample are different from the parameters optimal for the accuracy of said NO sensor. By temporarily storing a portion of the exhaled air, and feeding this to the sensor at a flow rate adapted to the NO sensor, the accuracy and sensitivity of a system/method involving NO sensors, in particular electrochemical NO sensors, can be increased. The method for diagnostic NO measurements comprises steps for controlling the inhalation of NO free air, as well as the exhalation, both by built-in means and by audible and/or visual feedback to the patient.
US08796030B2
The present invention relates generally to encoding samples. More specifically, it relates to barcodes and compositions involving upconverters and methods including them. In a composition aspect of the invention, a composition comprising two or more lanthanide materials is provided. Each lanthanide material comprises a host, an absorber, and an emitter, and the materials emit detectable electromagnetic radiation upon excitation with absorbable electromagnetic energy. One or more relative ratios of emission intensities uniquely identify the composition.
US08796022B2
The present invention provides method, compositions, and systems for generating basal forebrain cholinergic neurons (BFCNs) using FGF8, SHH, LXH8, GBX1, or vectors encoding these ligands, as well as using such BFCNs to treat neurological disorders such as Alzheimer's disease.
US08796021B2
The present invention relates generally to the field of somatic cell nuclear transfer (SCNT) and to the creation of cloned animals and cells. The disclosure relates to a method of cloning a mammal, obtaining pluripotent cells such as embryonic stem cells, or for reprogramming a mammalian cell using an oocyte and a fertilized embryo.
US08796019B2
The invention relates to the field of medical science, in particular to technology directed at repairing defects in living, preferably human, tissue. The present invention provides a method for inducing differentiation of multipotent cells to a desired cell type, as well as a method for repairing a tissue defect in a human or animal patient using the concept of said method for inducing differentiation of multipotent cells. The invention further relates to a kit for carrying out the method for repairing a tissue defect.
US08796017B2
A blood storage container suitable for quick and efficient production of a large amount of serum while ensuring high safety, and a method of separating blood and a regenerative medical process using the same are provided. In a blood component separator 1 for separating collected blood into a plurality of blood components and preserving them, the separator 1 including a blood reservoir 10 for reserving the blood and a component storage part 20 aseptically connected in an air-tight manner to this blood reservoir 10, to the aforementioned blood reservoir 10 being imparted a serum producing function to remove coagulation factors from the blood to an extent enabling use in practical applications as a serum, and the aforementioned component storage part 20 storing each blood component generated by separation of the blood in the blood reservoir 10.
US08796013B2
The compositions and methods of the invention described herein provide pre- or post-exposure treatments against filovirus or arenavirus infection by expressing one or more genes (e.g., two ore more genes) from filoviruses or arenaviruses in a delivery vehicle (e.g., a recombinant viral vector or a liposome).
US08796008B2
The present invention includes compositions and methods related to the structure and function of the cellular polyadenylation and specificity factor 30 (CPSF 30) binding site on the surface of the influenza A non-structural protein 1 (NS1). Specifically, critical biochemical reagents, conditions for crystallization and NMR analysis, assays, and general processes are described for (i) discovering, designing, and optimizing small molecule inhibitors of influenza A (avian flu) viruses and (ii) creating attenuated influenza virus strains suitable for avian and human flu vaccine development.
US08796006B2
The present invention relates to a crystal. In particular the present invention relates to a crystal of the N-domain of ACE protein. The present invention also relates to methods, processes, domain specific modulators, pharmaceutical compositions and uses of the N-domain crystal and the structure co-ordinates thereof.
