Patent application number | Description | Published |
20100132848 | ULTRAHIGH-STRENGTH STEEL SHEET EXCELLENT IN HYDROGEN EMBRITTLEMENT RESISTANCE AND WORKABILITY, AND MANUFACTURING METHOD THEREFOR - The ultrahigh-strength steel sheet contains, in mass %, C: 0.05-0.25%, Si: 1.00-2.5%, Mn: 2.0-4.0%, P: 0.1% or below (not inclusive of 0%), S: 0.05% or below (not inclusive of 0%), Al: 0.01-0.15%, Ti: 0.003-0.10%, N: 0.01% or below (not inclusive of 0%), the balance comprising iron with inevitable impurities, and is a composite structure steel sheet comprising 10-50 area % ferrite and 50 area % or above martensite, in which the average circle-equivalent grain diameter of ferrite grains is 2.0 μm or below, the average aspect ratio of ferrite grains is 2.0 or below, and the tensile strength is 1,100 MPa or above. Accordingly, the ultrahigh-strength steel sheet is excellent in hydrogen embrittlement resistance and workability. | 06-03-2010 |
20130008570 | ULTRAHIGH-STRENGTH STEEL SHEET WITH EXCELLENT WORKABILITY, AND MANUFACTURING METHOD THEREOF - Disclosed is an ultra high strength steel plate with at least 1100 MPa of tensile strength that has both an excellent strength-stretch balance and excellent bending workability, and a method for producing the same. The metal structure of the steel plate has martensite, and the soft phases of bainitic ferrite and polygonal ferrite. The area of the aforementioned martensite constitutes 50% or more, the area of the aforementioned bainitic ferrite constitutes 15% or more, and the area of the aforementioned polygonal ferrite constitutes 5% or less (including 0%). When the circle-equivalent diameter of the aforementioned soft phases is measured, the coefficient of variation (standard deviation/mean value) is less or equal to 1.0. The ultra high strength steel plate has at least 1100 MPa of tensile strength. | 01-10-2013 |
20140305553 | HIGH-STRENGTH COLD-ROLLED STEEL SHEET HAVING SMALL VARIATIONS IN STRENGTH AND DUCTILITY AND MANUFACTURING METHOD FOR THE SAME - A high-strength cold-rolled steel sheet has a chemical composition including C of 0.05% to 0.30%, Si of greater than 0% to 3.0%, Mn of 0.1% to 5.0%, P of greater than 0% to 0.1%, S of greater than 0% to 0.02%, Al of 0.01% to 1.0%, and N of greater than 0% to 0.01%, in mass percent, with the remainder including iron and inevitable impurities. The steel sheet has a microstructure containing ferrite as a soft primary phase in an area percentage of 20% to 50% with the remainder including tempered martensite and/or tempered bainite as a hard secondary phase. The ferrite grains are adapted to contain cementite particles having an appropriate size in an appropriate number density. | 10-16-2014 |
20150111064 | HIGH-STRENGTH HOT-DIP GALVANIZED STEEL SHEET AND HIGH-STRENGTH ALLOYED HOT-DIP GALVANIZED STEEL SHEET HAVING EXCELLENT BENDING WORKABILITY AND MINIMAL STRENGTH DIFFERENCE BETWEEN CENTER PART AND END PARTS IN SHEET WIDTH DIRECTION, AND METHOD FOR MANUFACTURING SAME - Provided are: a high-strength hot-dip galvanized steel sheet in which bending workability of the high-strength hot-dip galvanized steel sheet is improved, and in which strength difference between a center part and end parts in the sheet width direction is reduced; and a method for manufacturing a high-strength hot-dip galvanized steel sheet. The steel sheet is a hot-dip galvanized steel sheet having a hot-dip galvanizing layer on a surface of a base steel sheet containing: C, Mn, P, S, and Al; Ti and B in amounts satisfying equation (1); and N; and Si as needed; the remainder comprising iron and unavoidable impurities; the metallographic structure of the base steel sheet having martensite, bainite, and ferrite, the ratios of each with respect to the overall metallographic structure being 50 area % or more of the martensite, 15-50 area % of the bainite, and 5 area % or less of the ferrite, | 04-23-2015 |
20150114524 | HIGH STRENGTH COLD-ROLLED STEEL SHEET EXHIBITING LITTLE VARIATION IN STRENGTH AND DUCTILITY, AND MANUFACTURING METHOD FOR SAME - In a high strength cold-rolled steel plate having a specific chemical composition, a soft first phase (ferrite) has an area ratio of 20-50%, the remainder being a hard second phase (tempered martensite and/or tempered bainite), among all the ferrite grains, ferrite grains that have an average grain diameter of 10-25 μm account for a total area ratio of 80% or more, the number of the cementite grains that have an equivalent circle diameter of 0.3 μm or more is more than 0.15 piece and 1.0 piece or less per 1 μm | 04-30-2015 |
20150144231 | HIGH STRENGTH COLD-ROLLED STEEL SHEET AND MANUFACTURING METHOD THEREFOR - In a steel sheet having a specific chemical composition and having a microstructure including ferrite that is a soft first phase by 20-50% in terms of the area ratio, the remainder being tempered martensite and/or tempered bainite that is a hard second phase, the microstructure of steel of a surface layer section of the steel sheet from the surface to the depth of 100 μm and a center section of t/4-3t/4 (t is the sheet thickness) is controlled. | 05-28-2015 |
Patent application number | Description | Published |
20100047433 | Polymer for detecting fingerprint, method of producing the same, composition for detecting fingerprint and method of detecting fingerprint using the same - It is intended to provide a polymer for detecting a fingerprint, which can be easily handled in a scene of the fingerprint detection as a substitute for conventionally employed 2-cyanoacrylate (a monomer), and a composition for detecting a fingerprint. It is also intended to provide a method of detecting a fingerprint whereby a fingerprint can be detected at a high sensitivity regardless of the color or conditions of a specimen and wherein the specimen can be well restored. The present polymer and composition for detecting a fingerprint and method of detecting a fingerprint using the same make it possible to definitely detect a fingerprint by using fluorescence even from an almost white specimen such as a shopping bag or an aluminum foil from which a fingerprint can be hardly detected by the existing methods. | 02-25-2010 |
20110251318 | ADHESIVE COMPOSITION - An adhesive composition is provided particularly excellent in thermal shock resistance for adhesive strength as well as high shear adhesive strength, peel adhesive strength and impact adhesive strength. The adhesive composition of the present invention contains (a) a 2-cyanoacrylate such as 2-ethoxyethyl 2-cyanoacrylate and (b) a polyfunctional cyanoacrylate having two or more 2-cyanoacryloyl groups, the number average molecular weight of the polyfunctional cyanoacrylate (b) is in the range from 1,000 to 50,000, and preferably from 2,000 to 30,000, and the content of the polyfunctional cyanoacrylate (b) is in the range from 1 to 400 parts by weight, and preferably from 1 to 200 parts by weight based on 100 parts by weight of the 2-cyanoacrylate (a). | 10-13-2011 |
Patent application number | Description | Published |
20080231702 | VEHICLE OUTSIDE DISPLAY SYSTEM AND DISPLAY CONTROL APPARATUS - When any of obstacle sensors detects an obstacle, a distance to the obstacle may be shorter than a reference distance. In such a case a vehicle outside display system clips a detection area corresponding to the obstacle sensor used for the detection from a photographed image supplied from a camera. The system superimposes a detection position of the obstacle on the clipped image and displays the superimposed image without performing viewpoint transformation. When the distance to the obstacle becomes shorter than the reference distance, the system clips a detection area corresponding to the obstacle sensor used for the detection from the photographed image supplied from the camera. The system applies bird's-eye view transformation to the clipped image. The system superimposes a detection position of the obstacle on the clipped image and displays the superimposed image. | 09-25-2008 |
20100071471 | OBSTACLE DETECTION SYSTEM - An obstacle detection apparatus for detecting an obstacle in its surroundings is disclosed. The system includes: an ultrasonic sensor for transmitting and receiving ultrasonic wave; an obstacle detection section for performing an obstacle detection operation to determine whether the obstacle actually exists, wherein the obstacle detection section determines that the obstacle actually exists when a first voltage level associated with the ultrasonic wave received in the obstacle detection operation exceeds a determination threshold; a noise monitoring section configured to perform a noise monitoring operation to determine a noise level, wherein, the noise monitoring section recognizes a second voltage level associated with the ultrasonic wave received in the noise monitoring operation as the noise level; and a determination threshold setting section configured to set the determination threshold based on the second voltage level. | 03-25-2010 |
20100074056 | OBSTACLE DETECTION DEVICE FOR DETECTING OBSTACLE - An obstacle detection device for detecting an obstacle includes: a transmitting and receiving element for transmitting and receiving an ultrasonic wave; an amplifier for amplifying a received signal corresponding to a received ultrasonic wave; and a gain controller for controlling a gain of the amplifier The gain controller increases the gain with time elapsed from a transmission time when the transmitting and receiving element transmits the ultrasonic wave. The gain controller starts to increase the gain at a rising time when reverberation caused by the transmitted ultrasonic wave is disappeared. | 03-25-2010 |
20100141414 | Field watch apparatus - A field watch apparatus uses a storage unit to store detection data of a detected obstacle from an obstacle sensor that detects objects under control of a control unit, and the detection data accumulated in the storage unit over time is used to display a mark on a captured image that is captured by a camera and shown on a screen of a display unit. The mark size and other attributes of the mark in the image are controlled in a manner that enables a view to easily recognize an old mark from a new one, thereby providing an intuitive recognition of the obstacle movement in a certain direction in the captured image, when the mark is superposed in the captured image for multiple times based on the accumulated detection data in the storage unit. | 06-10-2010 |
20100245065 | Obstacle detection apparatus and method of controlling obstacle detection apparatus - An obstacle detection apparatus includes first and second ultrasonic sensors, a control part, and a warning device for warning in accordance with a distance between at least one of the ultrasonic sensors and an obstacle. The control part sets the first ultrasonic sensor to a transmitting and receiving mode while setting the second ultrasonic sensor to a receiving mode, and then sets the first ultrasonic sensor to the receiving mode while setting the second ultrasonic sensor to the transmitting and receiving mode. Each of the ultrasonic sensors has a reception sensitivity to a reflected wave reflected by the obstacle. Each of the ultrasonic sensors includes a reception sensitivity control portion configured to increase the reception sensitivity when the receiving mode is set compared with when the transmitting and receiving mode is set. | 09-30-2010 |
20120169875 | REARWARD VIEW ASSISTANCE APPARATUS - A rearward view assistance apparatus in a vehicle includes an imaging device that acquires a vehicle rearward image by taking a rearview from the vehicle, a control circuit that sets a cropped image by cropping part of the vehicle rearward image in response to a state of a vehicle, and a display device that is provided in a passenger compartment and displays the cropped image. The control circuit preferably overlays a lower portion of the cropped image with a mask. The control circuit preferably displays an indication corresponding to a rear portion of the vehicle on the cropped image. The rearward view assistance apparatus is thus provided to view rearward from the vehicle even when passengers are present on the seats in the second and third rows. | 07-05-2012 |
20130010114 | APPARATUS FOR DETECTING OBJECT APPROACHING VEHICLE - An apparatus for detecting an object approaching a vehicle by performing image recognition processing on an image captured by a camera that is mounted on the vehicle to cover a predetermined area around the vehicle includes a signal receiver, a selector, and a detector. The signal receiver obtains a vehicle signal indicative of an operating condition of the vehicle. The selector selects a predetermined region of the captured image, according to the vehicle signal, as an object detection region. The detector detects the object approaching the vehicle by performing the image recognition processing on only the object detection region of the captured image. | 01-10-2013 |
20130177207 | VEHICLE PERIPHERY MONITORING APPARATUS - A vehicle periphery monitoring apparatus displays a detection line on a display unit, with side portions of the detection line positioned on far-off spots that are farther than a spot on which a center portion of the detection line is positioned. In addition, based on the distance of the respective spots on which the portions of the detection line are positioned, the apparatus includes a parameter table that defines different parameters for a short distance portion, a middle distance portion, and a long distance portion of the detection line. The apparatus detects a moving object based on an actual-detected brightness change of a pixel along the detection line and a predefined brightness change of a pixel along the detection line that is defined by the parameter of the parameter table. | 07-11-2013 |
20130182109 | VEHICLE PERIPHERY MONITORING APPARATUS - A vehicle periphery monitoring apparatus detects the presence of a moving object along a vehicle periphery. The apparatus sets multiple detection lines along a horizontal axis of an image captured by a camera, and detects a brightness change of a pixel along the detection lines. With reference to the brightness change detected along the detection line and a parameter for determining whether such brightness change is caused by the moving object, the apparatus determines the presence of the moving object. In addition, the apparatus changes a determination condition for determining the moving object such that as the number of detection lines along which the brightness change is detected decreases, the harder it is to satisfy the determination condition for determining that the moving object is present. | 07-18-2013 |
20130265431 | OUTSIDE VIEW MONITOR SYSTEM FOR VEHICLE - A monitor system is used for a vehicle equipped with a camera for capturing an image of a predetermined area outside the vehicle, a display device for displaying the captured image to a driver, and a mirror for reflecting the predetermined area. The monitor system includes a failure detector for detecting a failure of a function that allows the display device to display the captured image, a report device for causing the display device to display failure information when the failure detector detects the failure, and a state detector for detecting whether the mirror is in a state where the mirror reflects the predetermined area such that the driver views the predetermined area on the mirror. When the mirror is in the state, the report device causes the display device to delete or zoon out the displayed failure information. | 10-10-2013 |
20150183406 | CLEANING APPARATUS FOR IN-VEHICLE OPTICAL SENSOR - A cleaning apparatus for an in-vehicle optical sensor includes a cleaning liquid nozzle and an air nozzle. The cleaning liquid nozzle jets out a cleaning liquid toward a lens surface of a lens of the in-vehicle optical sensor or a translucent surface of a translucent cover covering the lens surface when the translucent cover exists. The air nozzle jets out air toward a used cleaning liquid, which was jetted out from the cleaning liquid nozzle and cleaned the lens surface or the translucent surface, to prevent the used cleaning liquid from dropping from the lens surface or the translucent surface on a predetermined position by blowing away the used cleaning liquid. | 07-02-2015 |
20150191118 | VEHICULAR VISIBILITY SUPPORT APPARATUS - In a vehicular visibility support apparatus, a camera positioned on a front portion that is either the left side or the right side of a vehicle provides an image of a view laterally behind the vehicle including a part of a face of the side of the vehicle as a camera image. An input portion accepts input manipulation to generate an input signal. A control portion trims a desired region in the camera image based on the input signal and provides a trimmed image. The control portion trims the camera image based on: a vertical reference line including a part of the face on the side of the vehicle in a trimmed image before the input manipulation is accepted by the input portion, and a horizontal reference line orthogonal to the vertical reference line; and a direction of movement for change to the desired region inputted to the input portion. | 07-09-2015 |
20150286880 | DRIVING ASSISTANCE APPARATUS AND DRIVING ASSISTANCE METHOD - A driving assistance apparatus captures with a camera a video image showing an area, which surrounds a vehicle and includes a target on a road surface; generates a positioning video image for positioning the vehicle; and displays the generated positioning video image on a display monitor. The driving assistance apparatus also acquires a relative location of the target with respect to the vehicle. Further, based on the relative location of the target, the driving assistance apparatus switches the display mode of the positioning video image displayed on the display monitor between a first display mode (in which the target moves with respect to the vehicle) and a second display mode (in which the vehicle moves with respect to the target). | 10-08-2015 |
Patent application number | Description | Published |
20090174512 | IRON POWDER COATED WITH Mg-CONTAINING OXIDE FILM - Oxide-coated Fe powder for producing various electromagnetic circuit components requiring high resistivity is provided. The oxide-coated Fe powder is a Mg-containing oxide film-coated iron powder coated with an Mg—Fe—O ternary-based deposition film at least containing (Mg, Fe)O. The (Mg,Fe)O is a crystalline MgO-dissolving wustite. The Mg—Fe—O ternary-based oxide deposition film has a sulfur-enriched layer containing a higher concentration of sulfur than that of central portion of the iron powder, fine crystalline texture having a grain size of 200 nm or less, and the outermost surface is substantially composed of MgO. A composite soft magnetic material using the Mg-containing oxide film-coated iron powder is also provided. | 07-09-2009 |
20120070567 | METHOD FOR PRODUCING SOFT MAGNETIC METAL POWDER COATED WITH MG-CONTAINING OXIDE FILM AND METHOD FOR PRODUCING COMPOSITE SOFT MAGNETIC MATERIAL USING SAID POWDER - A method for producing a soft magnetic metal powder coated with a Mg-containing oxide film, comprising the steps of adding and mixing a Mg powder with a soft magnetic metal powder which has been subjected to heating treatment in an oxidizing atmosphere at a temperature of 40 to 500° C. to obtain a mixed powder, and heating the mixed powder at a temperature of 150 to 1,100° C. in an inert gas or vacuum atmosphere under a pressure of 1×10 | 03-22-2012 |
20120138844 | IRON POWDER COATED WITH Mg-CONTAINING OXIDE FILM - Oxide-coated Fe powder for producing various electromagnetic circuit components requiring high resistivity is provided. The oxide-coated Fe powder is a Mg-containing oxide film-coated iron powder coated with an Mg—Fe—O ternary-based deposition film at least containing (Mg, Fe)O. The (Mg,Fe)O is a crystalline MgO-dissolving wustite. The Mg—Fe—O ternary-based oxide deposition film has a sulfur-enriched layer containing a higher concentration of sulfur than that of central portion of the iron powder, fine crystalline texture having a grain size of 200 nm or less, and the outermost surface is substantially composed of MgO. A composite soft magnetic material using the Mg-containing oxide film-coated iron powder is also provided. | 06-07-2012 |
Patent application number | Description | Published |
20100002765 | Image encoding apparatus and method - An image encoding apparatus includes a calculation unit for calculating complexity from pixel values of an input image, the complexity representing a code amount generated by prediction encoding each block included in a prediction target region of the input image, and an allocation unit for allocating a code amount to each block based on the calculated complexity of each block and an allowable code amount previously set for the prediction target region. The apparatus further includes a determination unit for determining an encoding parameter corresponding to each block based on the complexity of each block and the code amount allocated to each block, and an encoding unit for encoding each block by using the determined encoding parameter of each block. Finally, the apparatus includes a resetting unit for resetting the allowable code amount for a next prediction target region based on an occupancy amount of a buffer. | 01-07-2010 |
20120219057 | VIDEO ENCODING APPARATUS AND VIDEO ENCODING METHOD - A video encoding apparatus includes a frequency transform unit for executing an orthogonal transform on a prediction difference or an original image; a quantizing unit for quantizing transform coefficients outputted by the frequency transform unit; a variable-length coder for executing variable-length encoding on a bit string generated from the quantized transform coefficients; a rate controller for performing a rate control to control a code bit stream outputted by the variable-length coder to be maintained at a bit rate; and a code amount estimating unit for estimating a code amount to be generated by the variable-length coder based on a length of the bit string and an occurrence frequency of symbol in the bit string. The rate controller executes the rate control based on the estimated code amount. | 08-30-2012 |
20130142252 | VIDEO IMAGE ENCODING DEVICE - In a variable length encoding for video data, the compression rate of video image encoding is increased by improving the level encoding method. A CAVLC encoding unit acquires coefficients obtained by orthogonally transforming and quantizing video image data in each block unit, determines an encoding mode of variable length encoding among those in a table_A and a table_B, or a mixture thereof by a level encoding mode controller and outputs the determination result to a level_prefix unit. In the table_B, a fixed_length bit string is allocated to a level_prefix which is at least a prescribed value. The level_prefix unit performs a level_prefix encoding in the determined encoding mode to output the result to an output control unit. | 06-06-2013 |
20140341294 | VIDEO ENCODING DEVICE - An image encoding device that appropriately estimates a prediction vector by avoiding an uncoded macro block (MB) is disclosed. The device determines a start point of searching a motion vector for an encoding target region, from the prediction vector for the target region which is determined with motion vectors for surrounding blocks around the target region and in accordance with a predetermined rule, and starts searching for the motion vector from the search start point. If the size of the encoding target region cannot be acquired during calculation of the prediction vector, the device determines the size of the encoding target region, from the size of an encoded region other than the target region. If at least one of the motion vectors for the surrounding blocks cannot be acquired, the device calculates the prediction vector using alternatively a motion vector of an encoded block outside of the target region. | 11-20-2014 |
20150161773 | IMAGE PROCESSING DEVICE AND IMAGE PROCESSING METHOD - Provided is an image processing apparatus that can reduce degradation in image quality due to heat haze and the like. An input image memory | 06-11-2015 |
20150228085 | IMAGE PROCESSING DEVICE - Disclosed is a method for correcting for shimmer due to thermal turbulence, even for moving subjects, on a time smoothed base. The device is provided with: a movement compensation means that, for a correction-targeted block of a correction-targeted image within an input image, uses a temporally proximate correction image to derive movement information about a moving object, performs motion compensation, and outputs a correction block and a cost value; and a shimmer correction means that carries out time averaging processing, in accordance with the cost value, of the correction-targeted block and the correction block, and outputs a corrected block in which shimmer of the moving object has been corrected, and correction information. Through two-stage motion detection, the movement compensation means extracts and compensates for movement of a moving object, in a manner unaffected by thermal turbulence. | 08-13-2015 |
20160006936 | IMAGE PROCESSING DEVICE, IMAGING DEVICE, MONITORING SYSTEM, ENCODING DEVICE, IMAGE PROCESSING METHOD - The purpose of the present invention is to provide image processing technology that can reduce shimmering in the entirety of images that include both still regions and moving bodies. This image processing device finds gradient distribution for each of a frame to be corrected and a frame for correction, changes, according to the degree of similarity in the gradient distribution, the proportion in which the frame to be corrected and the frame for correction are used, and then corrects the frame to be corrected using the frame for correction (see FIG. | 01-07-2016 |
Patent application number | Description | Published |
20080211968 | Image Processor and Image Display Apparatus Comprising the Same - An image processor includes a motion vector acquisition section for acquiring and outputting an image motion vector in pixel or a predetermined block unit from plural frames included in an input image signal; and a frame interpolation section for generating an interpolated frame by using the motion vector provided by the motion vector acquisition section and for combining the interpolated frame with a frame of the input image signal, thereby composing a signal of a new frame sequence. The motion vector acquisition section includes a first motion vector acquisition section acquiring a motion vector by matching process and a second motion vector acquisition section acquiring a motion vector based on a relative misalignment of a predetermined edge component between two temporally successive frames in a specific area of an input image signal's frame. | 09-04-2008 |
20090103816 | Method and Device of Image Encoding and Image Processing Apparatus - Provided is an image encoding method and device capable of encoding moving image random allowing access with low delay and high compression. The image encoding method which inputs image data and encodes the image data using a reference picture about the image data and a difference between the reference picture and the image data, and performs the steps of: setting an image output availability parameter indicating that it is possible to decode the image data to output the same if past pictures fall within a fixed range have been decoded, when decoding the image data which has been encoded; calculating influenced range information indicating a range where pictures encoded in the past influence a target picture to be encoded when encoding the image data; and controlling a range of the reference picture upon encoding such that the influenced range information calculated does not exceed the image output availability parameter. | 04-23-2009 |
20090316787 | MOVING IMAGE ENCODER AND DECODER, AND MOVING IMAGE ENCODING METHOD AND DECODING METHOD - A high-compression-ratio encoding and decoding technique is provided which enables random access image reproduction and which can prevent temporary decoding failure. A moving image encoder includes a substitute image generation section which generates a substitute image for a target area to be processed of an input image and a substitute image selection section which outputs information on the substitute image according to a reference image used at a prediction section. When the reference image used at the prediction section is an already encoded image, the substitute image selection section outputs the information on the substitute image to a variable-length encoding section. The variable-length encoding section encodes difference image data from a transform/quantization section into a variable-length code and generates an encoded stream by including the information on the substitute image in the variable-length code. | 12-24-2009 |
20100080288 | VIDEO COMPRESSION CODING METHOD AND APPARATUS - A first delay memory is input with an input image frame output from a ME (motion estimation) processor, and delays output to a first adder for carrying out a prediction residual generation process a predetermined time period. A second delay memory is input with an inter-prediction luminance image frame, and delays output to a prediction selection circuit a predetermined time period. A third delay memory is input with motion vector information output from the ME processor, and delays output of the motion vector information to an inter-prediction chrominance image creation processor a predetermined time period. | 04-01-2010 |
20100128792 | VIDEO DECODING METHOD - 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. | 05-27-2010 |
20100135381 | ENCODING/DECODING DEVICE AND VIDEO TRANSMISSION SYSTEM - The present invention relates to a video transmission system that uses an encoding/decoding technique. An object of the present invention is to refrain from using a memory for storing decoded image data, avoid a decoder input buffer problem (buffer overflow or underflow) with ease, achieve cost reduction, and provide enhanced image quality. In the video transmission system with an encoding/decoding device, a reference signal for adjusting a synchronization schedule of the entire system is generated and supplied to various sections. In addition, a timing adjustment amount for adjusting the synchronization schedule for the reference signal is generated by a decoder and supplied to a camera. | 06-03-2010 |
20110110424 | Video Encoder and Data Processing Method - A video encoder for evaluating a prediction error by using a prediction technique include: an image encoding section which encodes a prediction image; and an encoding control device which selects any one of a plurality of prediction modes in prediction used by the image encoding section. The image encoding section performs clipping of higher-order bits of the prediction error input to the encoding control device and reduction of lower-order bits thereof for each of the prediction modes to control prediction mode selection, thus reducing the prediction error bit width to a predetermined bit width. The encoding control device sets to the image encoding section the number of higher-order bits to be clipped and the number of lower-order bits to be reduced. The predetermined bit width of the prediction error after bit width reduction is matched with the bus width used for prediction error transmission by the encoding control device and the image encoding section. | 05-12-2011 |
20110142133 | VIDEO ENCODING METHOD AND VIDEO DECODING METHOD - Provided is a video encoding/decoding technique for improving the compression efficiency by reducing the motion vector code amount. In a video decoding process, the prediction vector calculation method is switched from one to another in accordance with a difference between predetermined motion vectors among a plurality of motion vectors of a peripheral block of a block to be decoded and already decoded. The calculated prediction vector is added to a difference vector decoded from an encoded stream so as to calculate a motion vector. By using the calculated motion vector, the inter-image prediction process is executed. | 06-16-2011 |
20110249749 | Moving Picture Decoding Method and Moving Picture Encoding Method - High-quality video is provided using a small amount of coded bits. The moving picture decoding method performs inter-frame prediction processing. With the aforementioned inter-frame prediction processing, blocks with similar motion vectors from among the motion vectors in multiple blocks that have already been decoded are combined and a combined area is computed. A predicted vector for a target block to be decoded is computed using the motion vector of the aforementioned combined area, and a motion vector for the aforementioned target block is computed based on the aforementioned predicted vector and a difference vector which is included in a coded stream that is input. A predicted image is generated using the aforementioned motion vector, and a difference image which is included in the aforementioned coded stream and the aforementioned predicted image are added to generate a decoded image. | 10-13-2011 |
20120236183 | IMAGE TRANSFER SYSTEM, IMAGE TRANSFER METHOD, IMAGE RECEPTION APPARATUS, IMAGE TRANSMISSION APPARATUS, AND IMAGE PICKUP APPARATUS - In order to transfer an image encoded at a high compression rate and suitably increase the resolution of the transferred image, it is provided an image transfer system, comprising: an image transmission unit that transmits an image; and an image reception unit that receives the image transmitted from the image transmission unit. The image transmission unit scales down the image, and transmits the scaled-down image to the image reception unit. The image reception unit calculates an angle between a line displayed in the image transmitted from the image transmission unit and a horizontal direction of the image in correspondence with pixels included in the image, scales up the image transmitted from the image transmission unit, and removes an aliasing component of the scaled-up image based on the calculated angle. | 09-20-2012 |
20150373365 | VIDEO ENCODING METHOD AND VIDEO DECODING METHOD - Provided is a video encoding/decoding technique for improving the compression efficiency by reducing the motion vector code amount. In a video decoding process, the prediction vector calculation method is switched from one to another in accordance with a difference between predetermined motion vectors among a plurality of motion vectors of a peripheral block of a block to be decoded and already decoded. The calculated prediction vector is added to a difference vector decoded from an encoded stream so as to calculate a motion vector. By using the calculated motion vector, the inter-image prediction process is executed. | 12-24-2015 |