Patent application number | Description | Published |
20110063517 | Method And System For Utilizing Non-Local Means (NLM) For Separation Of Luma (Y) And Chroma (CBCR) Components - One or more processors and/or circuits receive a composite video signal and determine a current pixel and a plurality of reference pixels. A plurality of weighting factors corresponding to the reference pixels are determined utilizing non-local means. Chroma components and/or luma components for the current pixel are determined based on weighted least squares utilizing the reference pixels, the weighting factors and information known about the composite signal, for example, sub carrier information. The composite video signal may comprise baseband Y and modulated Cb and/or Cr components. Weighting factors are determined by comparing a block of pixels about the current pixel with a block of pixels about the corresponding reference pixels in a current, previous or future frame. A set of equations comprising reference pixel data, a set of weighting factors and/or the known information may be solved to the determine signal components. | 03-17-2011 |
20110075041 | Method and System for a Generalized Multi-Dimensional Filter Device - Aspects of a method and system for a generalized multi-dimensional filter device are provided. A corresponding luma component and a corresponding chroma component of a sample of a composite video baseband signal for each of a plurality of filtering modes may be determined. A similarity level of the sample corresponding to each of the plurality of filtering modes may be determined. A corresponding coefficient for each of the plurality of filtering modes may be generated based on the determined similarity levels. A luma component and a chroma component of the sample of the composite video baseband signal may be generated based on the generated corresponding coefficients and the determined corresponding luma components and the determined corresponding chroma components for each of the plurality of filtering modes. | 03-31-2011 |
20150093040 | Backlight Detection Method and Device - A backlight detection method and device, and the method includes acquiring a brightness value of each image block in a to-be-checked image, determining a brightness relationship between the adjacent image blocks according to the brightness value of each image block; and determining a dark region and a bright region in the to-be-checked image according to the brightness relationship between the adjacent image blocks, and determining whether the to-be-checked image is a backlight scenario according to the dark region and the bright region. The backlight detection method and device provided by the embodiments of the present invention can improve accuracy of backlight detection. | 04-02-2015 |
20150103214 | Image Sharpening Processing Method and Apparatus, and Shooting Terminal - An image sharpening processing method and apparatus, and a shooting terminal, where the method includes acquiring to-be-processed image; performing edge-preserving filtering processing on the image to obtain base image information and detail image information, where the base image information includes image edge information; determining, according to the image edge information, a sharpening gain required for performing sharpening processing on the detail image information; and performing sharpening processing on the detail image information using the sharpening gain. It is implemented that the sharpening gain required for sharpening processing is determined by the image edge information, thereby suppressing noise amplification and avoiding generating a phenomenon of overshoot for sharpened image information and improving quality of a sharpened image. | 04-16-2015 |
20150104100 | Image Processing Method and Apparatus, and Shooting Terminal - An image processing method and apparatus, and a shooting terminal, where the method includes acquiring a to-be-processed image that is shot but is not image-processed; extracting shooting characteristic information of the to-be-processed image; performing image processing on the to-be-processed image according to the shooting characteristic information. In this way, after acquiring a to-be-processed image that is shot, a shooting terminal uses shooting characteristic information of the to-be-processed image as a basis of adaptive processing of the image, and performs processing on each to-be-processed image according to shooting characteristic information of each to-be-processed image, so that the quality of an image that is obtained after being processed by the shooting terminal can be adaptively improved. | 04-16-2015 |
20150110356 | Scene Recognition Method and Apparatus - A scene recognition method includes acquiring an image and sensor data corresponding to the image and determining, in accordance with the sensor data, whether a scene of the image is a non-high-dynamic range (HDR) scene. The method also includes extracting an image feature of the image when it is not determined whether the scene of the image is the non-HDR scene and determining, in accordance with the image feature, whether the scene of the image is an HDR scene. | 04-23-2015 |
Patent application number | Description | Published |
20110010741 | METHOD, SYSTEM AND DEVICE FOR CONTROLLING INTERACTIVE VIDEO SERVICE - A method for controlling an interactive video service is provided. The method includes the following steps: receiving a control request sent by a terminal device; obtaining an identifier of a Set Top Box (STB) device corresponding to the terminal device; and controlling a media stream of the STB device corresponding to the identifier of the STB device according to the control request. A system and a device for controlling an interactive video service are also provided. Thus, through the interaction between the terminal device and a Video On Demand (VOD) system, the program guide browsing and on-demand control for the interactive video service are realized for STB users. Therefore, without significantly modifying the broadcast and television network, the problem that some STB users cannot use an interactive video service currently is solved. In addition, the STB users can perform operations such as program guide browsing, on-demand initiating, and on-demand session control on handset devices, so that desirable service experience is achieved. | 01-13-2011 |
20110023061 | RESOURCE SCHEDULING APPARATUS AND METHOD, PROGRAM REQUESTING METHOD AND SYSTEM - A resource scheduling apparatus, a resource scheduling method, a program requesting method, a program requesting system, and a Set Top Box (STB) are provided. The resource scheduling method includes: distributing bandwidth greater than an inherent code rate of a program respectively requested by a user to a Video On Demand (VOD) program of the user within available bandwidth of a frequency point according to a received VOD user request; and reducing the bandwidth distributed to at least one VOD program to which bandwidth has been distributed according to the received VOD user request for currently requesting the program when the available bandwidth of the frequency point is smaller than an inherent code rate of a currently requested program, so that the available bandwidth of the frequency point is greater than or equal to the inherent code rate of the currently requested program. Thus, a transmission speed of the program and a utilization ratio of the bandwidth are increased. | 01-27-2011 |
20140054302 | DEVICE COVER - A device cover includes a bottom base and at least one sidewall extending from the bottom base. The at least one sidewall is formed by an upsetting process. The device cover is made of metal. Only one fold is formed by flow tracks of metallic grain of the at least one sidewall. | 02-27-2014 |
20150120710 | Search Method, Apparatus, And Electronic Device - A method of searching content is provided. The method includes receiving, in a social media messaging program, a search request including one or more search terms from a user of a client device. The method further includes searching, among the user's contacts locally stored on the client device, for contacts matching with the one or more search terms to produce first search results displaying a least a subset of the first search results and one or more search navigation affordances. At least one of the search navigation affordances corresponds to second search results of a first content type that are shared by the user and other users and at least one of the search navigation affordances corresponds to third search results of a second content type different from the first content type that are associated with the user. | 04-30-2015 |
20150180621 | DATA TRANSMISSION METHOD AND DEVICE - Provided are a data transmission method and device. The method includes: determining, by means of a frequency hopping manner according to a TTI Bundling parameter, a frequency domain position of a physical resource block in a slot for sending a TTI Bundling, wherein a frequency hopping variable i of the frequency hopping manner is determined according to the TTI Bundling parameter by means of one of or a combination of predetermined approaches, where mod is a modulus operation, floor is rounded down operation, n | 06-25-2015 |
Patent application number | Description | Published |
20100264409 | MOLECULAR DEVICE, IMAGING DEVICE, PHOTOSENSOR, AND ELECTRONIC APPARATUS - A molecular device includes a gold electrode, cytochrome c552 or a derivative or variant thereof immobilized on the gold electrode, and an electron transfer protein coupled to the cytochrome c552 or the derivative or variant thereof. Electrons or holes, or both, are transferred through the electron transfer protein by transition of electrons between molecular orbitals of the electron transfer protein. | 10-21-2010 |
20120012823 | COLOR IMAGING ELEMENT AND METHOD OF MANUFACTURING THE SAME, PHOTOSENSOR AND METHOD OF MANUFACTURING THE SAME, PHOTOELECTRIC TRANSDUCER AND METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC DEVICE - A color imaging element, a photosensor and a photoelectric transducer which use a protein and are capable of being stably used for a long time, and methods of manufacturing them are provided. A zinc-substituted cytochrome c552 is immobilized on a gold electrode with a self-assembled monolayer in between to form a blue-light photoelectric transducer. Alternatively, a cytochrome c552 is immobilized on a gold electrode with a self-assembled monolayer in between, and a fluorescent protein absorbing blue light is bonded to the cytochrome c552, thereby forming a blue-light photoelectric transducer. These photoelectric transducers each are used as a color imaging element or a blue-light photoelectric transducer of a photosensor. | 01-19-2012 |
20120138770 | NON-WETTED ALL SOLID PROTEIN PHOTOELECTRIC CONVERSION DEVICE, METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC DEVICE - A non-wetted all solid protein photoelectric conversion device that is able to be operated without existence of a liquid such as water inside and outside of the device and a method of manufacturing the same are provided. The non-wetted all solid protein photoelectric conversion device has a structure in which a solid protein layer composed of an electron transfer protein is sandwiched between an electrode and an electrode. The solid protein layer is immobilized onto the electrodes and. The solid protein layer does not contain a liquid such as water. The solid protein layer is composed of a monomolecular film or a multimolecular film of the electron transfer protein. | 06-07-2012 |
20120141831 | MULTILAYER TRANSPARENT LIGHT-RECEIVING DEVICE AND ELECTRONIC DEVICE - A multilayer transparent light-receiving device with significantly high photoresponsive speed that is easily manufactured, and a high-performance electronic device using the multilayer transparent light-receiving device are provided. The multilayer transparent light-receiving device is composed by laminating a plurality of protein transparent light-receiving elements using an electron transfer protein. The protein transparent light-receiving element has a structure in which a transparent substrate, a transparent electrode, an electron transfer protein layer, an electrolyte layer, and a transparent counter electrode are sequentially laminated. The multilayer transparent light-receiving device is used as a light-receiving device for a camera, an optical disc system and the like. | 06-07-2012 |
20120181517 | PROTEIN PHOTOELECTRIC CONVERSION DEVICE, PHOTOELECTRIC CONVERSION SYSTEM, PROTEIN PHOTOELECTRIC CONVERSION DEVICE MANUFACTURING METHOD, PHOTOELECTRIC CONVERSION SYSTEM MANUFACTURING METHOD AND PROTEIN-IMMOBILIZED ELECTRODE - A protein photoelectric conversion device including a gold electrode; and a substance selected from the group consisting of a metal-substituted cytochrome b | 07-19-2012 |
20120228587 | PHOTOELECTRIC CONVERSION ELEMENT, PRODUCTION METHOD FOR A PHOTOELECTRIC CONVERSION ELEMENT, SOLID-STATE IMAGE SENSOR, PRODUCTION METHOD FOR A SOLID-STATE IMAGE SENSOR, ELECTRONIC APPARATUS, PHOTOCONDUCTOR, PRODUCTION METHOD FOR A PHOTOCONDUCTOR AND MULTILAYER TRANSPARENT PHOTOELECTRIC CONVERSION ELEMENT - Provided is a photoelectric conversion element including a photoconductor containing a complex of a conductive polymer and/or polymer semiconductor and a protein containing at least one dye having a long-lived excited state. | 09-13-2012 |
20120277414 | PROTEIN PHOTOELECTRIC TRANSDUCER AND TIN-SUBSTITUTED CYTOCHROME c - There are provided a novel protein which has extremely high stability with respect to light irradiation, and is capable of maintaining a photoelectric conversion function for a long time, and a protein photoelectric transducer which uses the protein, and is capable of being stably used for a long time. A tin-substituted horse-heart cytochrome c is obtained by substituting tin for iron as a central metal of a heme of a horse-heart cytochrome c. A tin-substituted bovine-heart cytochrome c is obtained by substituting tin for iron as a central metal of a heme of a bovine-heart cytochrome c. A protein made of the tin-substituted horse-heart cytochrome c or the tin-substituted bovine-heart cytochrome c is immobilized on an electrode to form a protein-immobilized electrode. A protein photoelectric transducer is formed with use of the protein-immobilized electrode. | 11-01-2012 |
20120313867 | THREE-DIMENSIONAL INTERACTIVE DISPLAY - Provided is a thin three-dimensional interactive display which enables multi-touch sensing and three-dimensional gesture recognition. The three-dimensional interactive display includes a light source for irradiating an object to be detected with a light, a light modulation layer, into which a scattered light generated by irradiating the object with the light from the light source enters, at least for modulating an intensity of the scattered light, a transparent light-receiving layer for receiving the light transmitted through the light modulation layer, and a display panel or a back light panel disposed on the opposite side of the transparent light-receiving layer from the light modulation layer. The transparent light-receiving layer has a two-dimensional array of light-receiving elements. | 12-13-2012 |
20140183487 | METHOD OF MANUFACTURING PROTEIN SEMICONDUCTOR, PROTEIN SEMICONDUCTOR, METHOD OF MANUFACTURING PN JUNCTION, PN JUNCTION, METHOD OF MANUFACTURING SEMICONDUCTOR APPARATUS, SEMICONDUCTOR APPARATUS, ELECTRONIC APPARATUS, AND METHOD OF CONTROLLING CONDUCTIVITY TYPE OF PROTEIN SEMICONDUCTOR - A conductivity type of a protein semiconductor is controlled by controlling total amount of charge in amino acid residues, a p-type protein semiconductor or an n-type protein semiconductor is manufactured, and a pn junction is manufactured using the p-type protein semiconductor and the n-type protein semiconductor. The total amount of charge in amino acid residues is controlled by substituting one or more of an acidic amino acid residue, a basic amino acid residue, and a neutral amino acid residue, which are contained in protein, with an amino acid residue having different properties, chemically modifying one or more of an acidic amino acid residue, a basic amino acid residue, and a neutral amino acid residue, which are contained in the protein, or controlling polarity of a medium surrounding the protein. | 07-03-2014 |
Patent application number | Description | Published |
20090034482 | Cell search operations using Multibranch PSYNC detection module - A wireless terminal is operable to receive a Wideband Code Division Multiple Access (WCDMA) signal from a base station and includes clock circuitry, a wireless interface, and a Primary Synchronization (PSYNC) module. The clock circuitry generates a wireless terminal clock using a wireless terminal oscillator. The wireless interface receives the WCDMA signal, which is produced by the base station using a base station clock that is produced using a base station oscillator that is more accurate than the wireless terminal oscillator. The PSYNC module includes a plurality of PSYNC correlation branches. Each PSYNC correlation branch phase rotates the WCDMA signal based upon a respective frequency offset, correlates the phase rotated WCDMA signal with a Primary Synchronization Channel (PSCH) code over a plurality of sampling positions, and produces PSYNC correlation energies based upon the correlations for each of the plurality of sampling positions. | 02-05-2009 |
20090034490 | Generation of Quality Metrics using Multibranch PSYNC detection module - A wireless terminal is operable to receive a Wideband Code Division Multiple Access (WCDMA) signal from a base station and includes clock circuitry, a wireless interface, and a Primary Synchronization (PSYNC) module. The clock circuitry generates a wireless terminal clock using a wireless terminal oscillator. The wireless interface receives the WCDMA signal, which is produced by the base station using a base station clock that is produced using a base station oscillator that is more accurate than the wireless terminal oscillator. The PSYNC module includes a plurality of PSYNC correlation branches. Each PSYNC correlation branch phase rotates the WCDMA signal based upon a respective frequency offset, correlates the phase rotated WCDMA signal with a Primary Synchronization Channel (PSCH) code over a plurality of sampling positions, and produces PSYNC correlation energies based upon the correlations for each of the plurality of sampling positions. | 02-05-2009 |
20090034501 | Multiple Antenna Servicing by Multibranch PSYNC detection module - A wireless terminal is operable to receive a Wideband Code Division Multiple Access (WCDMA) signal from a base station and includes clock circuitry, a wireless interface, and a Primary Synchronization (PSYNC) module. The clock circuitry generates a wireless terminal clock using a wireless terminal oscillator. The wireless interface receives the WCDMA signal, which is produced by the base station using a base station clock that is produced using a base station oscillator that is more accurate than the wireless terminal oscillator. The PSYNC module includes a plurality of PSYNC correlation branches. Each PSYNC correlation branch phase rotates the WCDMA signal based upon a respective frequency offset, correlates the phase rotated WCDMA signal with a Primary Synchronization Channel (PSCH) code over a plurality of sampling positions, and produces PSYNC correlation energies based upon the correlations for each of the plurality of sampling positions. | 02-05-2009 |
20090034502 | FIRMWARE PROCESSING FOR DOWNLINK F-DPCH - A downlink channel receiver operable to implement fractional dedicated physical channel (F-DPCH) processing within a Rake receiver structure is provided. The downlink channel receiver includes a receiver, a baseband processing block, a WCDMA processing block, wherein F-DPCH processing is divided between a plurality of hardware processing blocks and a plurality of firmware (FW) processing blocks. The receiver is operable to convert a radio frequency (RF) signal to a baseband signal. The baseband processing block operable to processes and provides the baseband signal to the WCDMA processing block. F-DPCH processing is divided between the plurality of hardware processing blocks and plurality of firmware (FW) processing blocks. | 02-05-2009 |
20090034589 | MULTIPLE BRANCH PSYNC DETECTION MODULE - A wireless terminal is operable to receive a Wideband Code Division Multiple Access (WCDMA) signal from a base station and includes clock circuitry, a wireless interface, and a Primary Synchronization (PSYNC) module. The clock circuitry generates a wireless terminal clock using a wireless terminal oscillator. The wireless interface receives the WCDMA signal, which is produced by the base station using a base station clock that is produced using a base station oscillator that is more accurate than the wireless terminal oscillator. The PSYNC module includes a plurality of PSYNC correlation branches. Each PSYNC correlation branch phase rotates the WCDMA signal based upon a respective frequency offset, correlates the phase rotated WCDMA signal with a Primary Synchronization Channel (PSCH) code over a plurality of sampling positions, and produces PSYNC correlation energies based upon the correlations for each of the plurality of sampling positions. | 02-05-2009 |
Patent application number | Description | Published |
20110233455 | SINTERED ND-FE-B PERMANENT MAGNET WITH HIGH COERCIVITY FOR HIGH TEMPERATURE APPLICATIONS - A type of sintered Nd—Fe—B permanent magnet with high intrinsic coercivity of about 30KOe or more is produced by dual alloy method. The method comprises the following steps: preparing the powders of master phase alloy and intergranular phase alloy respectively, mixing the powders, compacting the powders in magnetic field, sintering the compacted body at 1050˜1125° C. and annealing at 890-1000° C. and 500-650° C. successively. In the process of preparing the powder of intergranular phase alloy, the nano-powder additive selected from the group consisting of NiAl, TiC, SiC, AlN, TiN, ZrN and the combination thereof is used to modify the powder of intergranular phase alloy. | 09-29-2011 |
20110234350 | MODIFIED ND-FE-B PERMANENT MAGNET WITH HIGH CORROSION RESISTANCE - A type of sintered Nd—Fe—B permanent magnet with high corrosion resistance is produced by dual alloy method. The method comprises the following steps: preparing the powders of master phase alloy and intergranular phase alloy respectively, mixing the powders, compacting the powders in magnetic field, sintering the compacted body at 1050˜1125° C., and annealing at 920-1020° C. and 500-650° C. successively | 09-29-2011 |
Patent application number | Description | Published |
20150145638 | ZnO MULTILAYER CHIP VARISTOR WITH BASE METAL INNER ELECTRODES AND PREPARATION METHOD THEREOF - Provided are a multilayer chip ZnO varistor with base metal inner electrodes and a preparation method thereof. The varistor is formed by ceramic sheets and inner electrodes which were alternately laminated. Wherein the main material of inner electrodes is the base metal nickel(Ni), both ends of the varistor are coated with silver electrodes. The present invention has the following beneficial effects: (1) the material formula of ZnO varistor is suitable for the preparation process of reduction and reoxidation; (2) the base metal Ni is used as inner electrodes which can sharply reduce the preparation cost of a multilayer chip ZnO varistor; (3) using a conventional solid-phase sintering method, it can complete the burning of silver and the oxidation of the ceramic simultaneously which is suitable for mass production; (4) the nonlinear coefficient of the ZnO multilayer chip varistor produced by the method of this invention can reach 30 or more, the varistor breakdown voltage is less than 20V and the size can be standard chip package size 0805,0603,0402 and 0201. | 05-28-2015 |
20150145639 | LAMINATED CHIP COMPOSITE RESISTOR COMBINING THERMISTOR AND VARISTOR AND PREPARATION METHOD THEREOF - Provided are a laminated chip composite resistor combining a thermistor and a varistor, and a preparation method thereof. The composite resistor comprises a varistor part, a transition layer part and a thermistor part overlapped sequentially, wherein the varistor part is formed by alternately laminating a ceramic layer of a varistor, a first electrode layer, another ceramic layer of a varistor and a second electrode layer; the thermistor part is formed by alternately laminating a ceramic layer of a thermistor, a third electrode layer, another ceramic layer of a thermistor and a fourth electrode layer; and the transition layer part is located between the thermistor part and the varistor part. Co-firing is employed and the base metal Ni is the main material of inner electrodes, which can reduce costs, simplify the preparation process, and improve the reliability. | 05-28-2015 |