Abstract: Methods and devices for video coding are described. When encoding a non-zero coefficient group (CG) prior to the last such group in a group scan ordering within a transform block, data representative of the true (x,y)-position of the last non-zero transform coefficient in a scan ordering within that CG is modified, to improve coding efficiency, based upon at least one of (a) an intra-prediction mode used to encode the block and (b) at least one coefficient group neighboring that CG. Upon decoding a CG thus encoded, the modification is un-done to retrieve the true (x,y)-position.

Abstract: A method of decoding an image includes the steps of restoring a residual value by performing inverse quantization and inverse transform on the residual value by entropy decoding a received bit stream, generating a prediction unit by performing intra prediction selectively using one of a plurality of prediction modes on a prediction unit split by conducting at least one of asymmetric partitioning and geometrical partitioning, and restoring an image by adding the residual value to the prediction unit. It may be possible to enhance encoding efficiency of high-resolution images having a resolution of HD or higher by performing intra prediction on the asymmetric partitioning and/or geometrical partitioning.

Abstract: Methods and systems for scene recognition are provided. At least one dark region from an image is searched, and color for pixels of the at least one dark region is calculated. It is determined whether a proportion of low colorfulness pixels to the pixels of the at least one dark region is greater than a predefined threshold, wherein when the color information of the respective pixel is less than a specific level, the respective pixel is determined as low colorfulness. When the proportion of low colorfulness pixels to the pixels of the at least one dark region is greater than the predefined threshold, a scene corresponding to the image is not determined as a backlight scene.

Abstract: Methods and systems for transferring vector data over a plurality of networks is disclosed. A system includes one or more encoding device(s), the device having a processor configured to convert a vector data in a first standard format into a compressed vector data in a micro format. A plurality of message centers are coupled with said encoding device(s) and comprise a processor configured to receive and temporarily store said compressed vector data in the micro format. One or more decoding device(s) residing at a plurality of handheld units are coupled with said message centers and are configured to receive said compressed vector data in said micro format, said decoding device(s) comprising a processor and configured to convert said compressed vector data in said micro format into the vector data in said first standard format and to render the vector data in said first standard format over said handheld units.

Abstract: Provided is an image display system which allows a user to browse an object of interest in a background as if she/he picks up and moves the object of interest by hand, and allows the user to visually enter inside a specified object placed on the background. The image display system of the present invention is characterized in that it has a mother database (MDB) reconfigured from a database for configuring an object, wherein an image (a two-dimensional image, a three-dimensional space or a four-dimensional space) based on the MDB, in an entire image, is substituted for an object subjected to the object recognition based on the MDB, and synthetically displayed.

Abstract: The present technology includes a setting unit that sets the position of a boundary of image data in an upper hierarchy unit to be in a lower hierarchy unit that is lower than the upper hierarchy unit when the image data is encoded in a unit of encoding with a hierarchical structure; an encoding unit that generates encoded data by encoding the image data according to the position of the boundary set by the setting unit; and an addition unit that adds information on the image data in the upper hierarchy unit before encoded data in an intermediate hierarchy unit that includes the boundary set by the setting unit, is lower than the upper hierarchy unit, and is higher than the lower hierarchy unit. The present technology can be applied to, for example, an image processing device.

Abstract: A system that incorporates the subject disclosure may include, for example, partitioning the image into a group of blocks, calculating principle bilateral filtered image components for a first subset of the group of blocks where the principle bilateral filtered image components are not calculated for a second subset of the group of blocks, and applying an infinite impulse response filter to the image using the principle bilateral filtered image components. Other embodiments are disclosed.

Abstract: The spatial frequency analysis contained in the compressed image is used not only for decompression of images but also for the selection of an appropriate gamut mapping algorithm. Computation resources are then saved because no specific spatial frequency analysis is required for the selection of an appropriate gamut mapping algorithm.

Abstract: A global bit stream comprising at least a first and a second bit stream is generated using an original visual bit stream. The first bit stream is generated by compressing the original visual bit stream using a JPEG-LS compression technique with a lossy factor ‘n’. The second bit stream is generated by compressing a difference bit stream using a JPEG-LS lossless compression technique, wherein the difference bit stream comprises a difference between the original visual bit stream and the first bit stream. The visual display is recreated using a reconstructed bit stream after receiving the global bit stream over a channel, wherein the reconstructed bit stream is generated by decompressing at least the first bit stream using a JPEG-LS lossless compression technique. The second bit stream is decompressed using JPEG-LS lossless compression technique and the quality of the display may be enhanced by adding the decompressed second bit stream.

Abstract: Several approaches are disclosed for combining HDR and 3D image structure analysis and coding, in particular an encoding apparatus for encoding a first view high dynamic range image and a second view high dynamic range image comprising: first and second HDR image receivers (203, 1201) arranged to receive the first view high dynamic range image and a second view high dynamic range image; a predictor (209) arranged to predict the first view high dynamic range image from a low dynamic range representation of the first view high dynamic range image; and a view predictor (1203) to predict the second view high dynamic range image from at least one of the first view high dynamic range image, a low dynamic range representation of the second view high dynamic range image, or a low dynamic range representation of the first view high dynamic range image.

Abstract: A method and a system for analyzing multi-channel images are provided. The method includes: receiving a plurality of images through a plurality of channels, respectively; combining selected images among the plurality of images into a single image; and performing an image analysis with respect to: entirety of the combined image by treating the selected images as a single image; or each of the selected images in the combined image.

Abstract: Various embodiments of a method, system and computer program product for correcting distortions in a multimedia content comprising a set of temporal images are disclosed. Each image of the set of temporal images is decomposed into patches. Thereafter, each set of temporal patches is parsed hierarchically to obtain a set of background components and one or more moving objects. Thereafter, the set of background components and the one or more moving objects are aggregated to reconstruct the multimedia content.

Abstract: A compressed font file including compressed data is received. The compressed data is decompressed to generate decompressed data. An attempt to validate the decompressed data is made. Within the decompressed data, a predetermined pattern of invalid data corresponding to an element of a font file is detected. The font file is reconstructed by replacing at least some of the invalid data with the element.

Abstract: The disclosed method and the corresponding system for identifying an item on a production line according to the invention relies on color histograms established from a digital image of the item, which are compared, on a bin per bin basis, with minimum and maximum numbers of pixels per bin allowed for identification with a reference item.

Abstract: According to one embodiment, an image processing device includes an encoder, a sub-block selector, an image processor, and a decoder. The encoder generates coded data by encoding an input bit stream of image data including plural blocks in a block unit of a predetermined number. The sub-block selector selects at least one sub-block from the coded data. The sub-block includes a request area on which an image processing is performed, and which is smaller than the block. The decoder decodes the sub-block to generate decoded data. The image processor performs the image processing on the decoded data to generate processed image data.

Abstract: In one embodiment, a method includes receiving at least one transformation identifier associated with a first image maintained by a social networking system. The transformation identifier includes at least one transformation version. The method further includes determining at least one transformation for application to the first image based on the at least one transformation identifier and the at least one transformation version.

Abstract: An image processing apparatus can perform time-sequential weighting addition processing on a moving image constituted by a plurality of frames includes a filter unit configured to obtain an image by performing recursive filter processing on a frame image that precedes a present target frame, which is one of the plurality of frames constituting the moving image, a coefficient acquisition unit configured to acquire a weighting coefficient for the present target frame based on a noise statistic of a differential image between an image of the present target frame and the image obtained by the filter unit, and an addition unit configured to perform addition processing on the moving image constituted by the plurality of frames based on weighting coefficients acquired by the coefficient acquisition unit.

Abstract: A target extracting apparatus and method for extracting a target through probability modeling of pixel brightness values in an image, and a recording medium storing a program for performing the method, are disclosed. The method includes extracting a background image from an input image, modeling brightness values of the input image and the background image based on a Gaussian distribution to generate an input image modeling result and a background image modeling result, calculating likelihood ratios for determining whether a pixel in the input image corresponds to a target based on a correlation between the input image modeling result and the background image modeling result and target templates having different sizes; determining a location of the target based on the calculated likelihood ratios; and outputting the determined location of the target.

Abstract: Provided is a method and apparatus for deblurring a non-uniform motion blur in an input image, that may restore a clearer image by dividing a large scale input image into tiles corresponding to partial areas, selecting, among the divided tiles, an optimal tile for a partial area most suitable for estimating non-uniform motion blur information, and effectively removing an artifact in an outer portion of a tile through padding of each tile.

Abstract: A method of decoding an image includes the steps of restoring a residual value by performing inverse quantization and inverse transform on the residual value by entropy decoding a received bit stream, generating a prediction unit by performing intra prediction selectively using one of a plurality of prediction modes on a prediction unit split by conducting at least one of asymmetric partitioning and geometrical partitioning, and restoring an image by adding the residual value to the prediction unit. It may be possible to enhance encoding efficiency of high-resolution images having a resolution of HD or higher by performing intra prediction on the asymmetric partitioning and/or geometrical partitioning.