Entries |
Document | Title | Date |
20080205780 | LOSSLESS EMBEDDING OF DATA IN DIGITAL OBJECTS - Current methods of embedding hidden data in an image inevitably distort the original image by noise. This distortion cannot generally be removed completely because of quantization, bit-replacement, or truncation at the grayscales 0 and 255. The distortion, though often small, may make the original image unacceptable for medical applications, or for military and law enforcement applications where an image must be inspected under unusual viewing conditions (e.g., after filtering or extreme zoom). The present invention provides high-capacity embedding of data that is lossless (or distortion-free) because, after embedded information is extracted from a cover image, we revert to an exact copy of the original image before the embedding took place. This new technique is a powerful tool for a variety of tasks, including lossless robust watermarking, lossless authentication with fragile watermarks, and steganalysis. The technique is applicable to raw, uncompressed formats (e.g., BMP, PCX, PGM, RAS, etc.), lossy image formats (JPEG, JPEG2000, wavelet), and palette formats (GIF, PNG). | 08-28-2008 |
20080226187 | IMAGE CODING METHOD, IMAGE CODING APPARATUS, IMAGE CODING CIRCUIT, INFORMATION RECORDING MEDIUM, AND COMPUTER PROGRAM - An image coding method is disclosed by which plural code data sets each having a different code amount are generated from one image data set that includes a target code amount setting step for setting a different target code amount for each of the code data sets; an entropy code generation step for applying entropy coding processing to the image data set or data obtained by applying predetermined processing to the image data set so as to generate plural entropy codes; a code amount control step for specifying one of the entropy codes to be truncated so as to control a code amount for each different target code amount; and a code data generation step for truncating the one of the entropy codes specified in the code amount control step and generating the corresponding code data set. | 09-18-2008 |
20080279464 | TRANSPORT STREAM STRUCTURE OF IMAGE DATA HAVING ADDITIONAL INFORMATION INSERTED, AND METHOD AND APPARATUS FOR TRANSMISSION AND RECEPTION THEREOF - Provided are a transport stream structure of image data, a transmitting and receiving apparatus and method thereof. A transport stream structure of image data includes a header compressed by a lossless compression algorithm; an additional information field for additional information of image data, the additional information field being generated based on compressing the header by using the lossless compression algorithm; and a payload including the image data. The transport stream structure of the image data, the transmitting and receiving apparatus and method thereof enables inserting the additional information without changing the size of the related art transport stream structure of the image data. | 11-13-2008 |
20080279465 | APPARATUS AND METHOD FOR ENCODING DIGITAL IMAGE DATA IN A LOSSLESS MANNER - A method of losslessly compressing and encoding signals representing image information is claimed. A lossy compressed data file and a residual compressed data file are generated. When the lossy compressed data file and the residual compressed data file are combined, a lossless data file that is substantially identical to the original data file is created. | 11-13-2008 |
20090016628 | Image Processing Apparatus, Image Processing Method, and Printing Apparatus - An image processing apparatus that creates a still image from a motion picture. A storage section has a storage region for correction required when a target image with a predetermined determination size is corrected by using a plurality of images. A size determining section determines whether or not the size of the target image designated as a still image is equal to or smaller than the determination size. An image extracting section extracts from the motion picture a plurality of images including a target image designated as a still image and a first image for correction used when performing correction using a plurality of images. A still image creating section creates the still image by extracting the plurality of images by means of the image extracting section, and by executing first correction for making a correction using the plurality of images when a result of the determination indicates that the size of the target image is equal to or smaller than the determination size and that creates the still image by extracting only the target image designated as the still image by means of the image extracting section, and by executing second correction for correcting the extracted target image when the determination result indicates that the size of the target image is larger than the determination size. | 01-15-2009 |
20090022413 | SYSTEM AND METHOD FOR INCREMENTAL AND CONTINUOUS DATA COMPRESSION - A data compression system and method for that is capable of detecting and eliminating repeated phrases of variable length within a window of virtually unlimited size. | 01-22-2009 |
20090103822 | METHOD FOR COMPRESSION OF IMAGE DATA - In a method and device for compression of image data, in particular medical image data, the image data are initially compressed by means of a lossy compression method with a predetermined starting compression factor. The compressed image data are then analyzed to determine a quality value relative to a defined quality measure and the quality value is compared with a desired quality value predetermined relative to a defined quality measure. A new compression of the image data or further compression of the image data already compressed in a preceding step then ensues with a different compression factor and/or with a different compression method when the quality value deviates by a specific degree from the desired quality value. | 04-23-2009 |
20090129691 | Lossless Compression of Color Image Data Using Entropy Encoding - A method compresses a digital continuous tone image of pixels situated on scan lines. The method includes the steps of, for a current pixel to be encoded, said current pixel having an actual pixel value, predicting a predicted pixel value based on pixel values of at least one previously processed pixel from the same image, using a fixed rule, determining a difference parameter based on a difference value of said predicted pixel value and the actual pixel value of said current pixel to be encoded, and inspecting the difference parameter for existence of an uninterrupted series of highest order bits having a value equal to zero, removing at least part of said highest order zero bits, and, if a number of bits within predetermined limits remains, generating a compression code having a predetermined fixed length, said code indicating the number of remaining bits. | 05-21-2009 |
20090154819 | CIRCUIT AND METHOD FOR ADAPTIVE, LOSSLESS COMPRESSION OF SUCCESSIVE DIGITAL DATA - An image compression and decompression method compresses data based upon the data states, and decompresses the compressed data based upon the codes generated during the compression. | 06-18-2009 |
20090190849 | Encoder and decoder for encoding and decoding pixel data with low amount of transmitting data, encoding method, and decoding method thereof - An encoder encoding an N | 07-30-2009 |
20090208126 | IMAGE ENCODING APPARATUS, IMAGE PROCESSING APPARATUS AND CONTROL METHOD THEREOF - The invention provides an image encoding apparatus which can improve image quality of an output image while further reduce the amount of attribute. A determination unit determines an area including a character/line drawing as a foreground image area based on an input multi-valued image. A foreground image generator generates foreground image in binary representation so that a first encoder performs MMR encoding on the foreground image. A background image generator generates multi-valued background image data by replacing the value of a multi-valued pixel in a position of the character/line drawing in the foreground image area with a replacement value calculated from the pixel values in a position of the non-character/line drawing pixel. A second encoder performs JPEG encoding on the background image. A mask unit masks attribute for pixels within the foreground image area with a predetermined value to output the masked data to a third encoder. | 08-20-2009 |
20090252427 | IMAGE ENCODING APPARATUS AND CONTROL METHOD THEREOF - This invention enables to generate encoded data without noticeable image quality degradation when reproducing an image at a lower resolution not to mention the original resolution. To accomplish this, when setting is done to transmit an image captured by a digital camera to a network, code stream forming information CF is set to “2” to arrange the encoded data of each tile in a resolution order. To suppress image quality degradation when reproducing at an intermediate resolution, stream conversion information SC is set to “2”. When encoding image data in compression processing, block overlap processing of suppressing discontinuity of data at the boundary between adjacent blocks is executed as many times as the count set in the stream conversion information. The obtained encoded data is arranged in accordance with the code stream forming information CF and output. | 10-08-2009 |
20090279803 | METHOD AND APPARATUS FOR CONVERTING BIT-PLANE IMAGE, AND METHOD AND APPARATUS FOR INVERSE-CONVERTING BIT-PLANE IMAGE - Provided are methods and apparatuses for converting a lower bit-plane image, and methods and apparatuses for inverse-converting the lower bit-plane image, which increase the correlation of the lower bit-plane image. According to the method of converting a lower bit-plane image, pixels of the lower bit-plane image are sequentially added or subtracted so as to generate a converted lower bit-plane image. Accordingly, the lower bit-plane image has higher regularity, and thus the efficiency of image processing using the lower bit-plane image is improved. | 11-12-2009 |
20090310877 | Lossless Compression Process for Interferograms - A process and apparatus for lossless data compression including the step of generating characteristic tables for predicted intensities as a function of radius values f(i,j)) on at least one type of preferred axes. Intensity signals of a detector matrix (I(i,j)) are used to implement the invention. | 12-17-2009 |
20100008593 | Method and apparatus for model compression - Aspects of the disclosure provide a lossless compression method for 3D mesh models. The method can be combined or layered with other compression methods to provide additional data compression capability. The method for compressing a mesh model having geometry information and connectivity information of vertices can include defining a first set of vertices having a same connectivity property, determining a subset of the first set of vertices that are encompassed by an area defined by the first set of vertices, and encoding the mesh model without the connectivity information for the subset of the first set of vertices. | 01-14-2010 |
20100034477 | METHOD AND APPARATUS FOR PROVIDING HIGHER RESOLUTION IMAGES IN AN EMBEDDED DEVICE - A method and apparatus to providing higher resolution images on an embedded device by performing a super resolution technique on a compressed image sequence and one or more motion vectors are described. In one example, the method includes compressing an image sequence using a video compression technique, wherein the image sequence comprises a plurality of lower resolution images and applying a super resolution technique to the compressed image sequence to generate a higher resolution image. | 02-11-2010 |
20100061646 | IMAGE PROCESSING METHOD - An image processing method is provided. The image processing method includes obtaining a least significant bit (LSB) associated with a pixel block. Further, two bits are reduced from a bit number of each of the pixels of the pixel block. Thereafter whether to carry the pixel or not is determined according to the LSB. When the LSB is 01 or 11, the carry manners of each pixel of the pixel block in two consecutive frames are asymmetric one to another. Further, under the conditions of when the LSB is 01 and 11, respectively, the carry manners of the pixels of the pixel block mutually compensate. Therefore, the display performance of a display is improved. | 03-11-2010 |
20100067813 | Method, computer program product, and hardware product for implementing lossless image compression by minimizing complex structures using intelligent pixel crawling - Lossless image compression is performed by receiving and opening an original image file representing an image. A pixel path is determined in the image by analyzing one or more complex structures in the image. The one or more complex structures are represented using a mathematical expression. Each of the pixels along the determined pixel path is replaced to minimize the complex structure, thus providing a compressed image file having a smaller file size than the original image file. A comment is inserted in the compressed image file specifying the determined pixel path. The compressed image file is stored on a computer-readable storage medium. | 03-18-2010 |
20100092099 | IMAGE ENCODING METHODS AND APPARATUS PROVIDING IMPROVED VISUAL RESULTS - Microsoft's recently proposed new image compression codec JPEG XR is currently undergoing ISO standardization as JPEG-XR. Even though performance measurements carried out by the JPEG committee indicated that the PSNR performance of JPEG XR is competitive, the visual performance of JPEG XR showed notable deficits, both in subjective and objective tests. This paper introduces various techniques that improve the visual performance of JPEG XR without leaving the current codestream definition. Objective measurements performed by the author indicate that the modified encoder, while staying backwards compatible to the current standard proposition, improves visual performance significantly, and the performance of the modified encoder is similar to JPEG. | 04-15-2010 |
20100142839 | DVC AS GENERIC FILE FORMAT FOR PLENOPTIC CAMERA - A computer implemented method of storing pixel data corresponding to a pixel is disclosed. A first and a second set of pixel data is determined for the pixel. Parity bits for the first set of pixel data are generated, using error correction. An encoded version of the first set of pixel data including the parity bits is stored. An encoded version of the second set of pixel data is stored, using lossless data compression, for use in decoding the first set of pixel data. | 06-10-2010 |
20100142840 | IMAGE ENCODING APPARATUS AND METHOD OF CONTROLLING THE SAME - Resolution interpolation data is generated by relatively simple processing. This enables image encoding by simple and quick processing to attain high image quality and high compression performance. To do this, a tile divider extracts tile data of 32×32 pixels from encoding target original image data. A resolution converter samples one pixel of a block of 2×2 pixels in the tile data, thereby generating reduced tile data of a reduced image. An interpolation data generator generates interpolation data to be used to generate tile data having the original resolution from the reduced tile data. Based on the interpolation data of a tile of interest, an encoding method selector outputs a control signal indicating which one of lossless encoding and lossy encoding should be executed for the reduced tile data. A code stream generator outputs the generated encoded data and interpolation data as encoded image data. | 06-10-2010 |
20100166329 | DATA TRANSFORMING APPARATUS AND CONTROL METHOD THEREOF - This invention implements a fast lossless transform almost free from a delay with a small calculation amount. The lossless transform can be used to perform lossless coding and lossy coding quickly. A first calculation unit multiplies data D | 07-01-2010 |
20100177976 | IMAGE PROCESSING DEVICE, METHOD AND PROGRAM - In an image processing device, a transfer unit enlarges or reduces the image data at the transfer magnification by performing an enlarging or reducing process on the image data once, when the transfer magnification is equal to or smaller than an upper limit or equal to or greater than a lower limit. The transfer unit also repeats, by a plurality of times, a process of performing an enlarging or reducing process on an image data stored in a first region of a storage unit at a divided-transfer magnification equal to or smaller than the upper limit or equal to or greater than the lower limit and then storing the image data in a second region of the storage unit, when the transfer magnification is above the upper limit or below the lower limit. | 07-15-2010 |
20100232723 | Methods for data compression - Methods for compression of two-dimensional data arrays which are piece-wise smooth in one direction and have oscillating events in the other direction. In one embodiment, a wavelet transform is applied in the piece-wise smooth direction and a local cosine transform (LCT) is applied in the direction with oscillatory events, both producing respective transform coefficients. The LCT coefficients are reordered to mimic a wavelet transform coefficient order, and both wavelet transform and reordered LCT coefficients are quantized and entropy coded to obtain a compressed 2D image. In some embodiments with oscillatory events in both directions, a LCT is applied in both directions and all the LCT coefficients in each direction are reordered before the quantization and entropy coding. | 09-16-2010 |
20100290712 | IMAGE PROCESSING METHOD AND IMAGE PROCESSING APPARATUS - An image processing method of processing image portrayal information used for rendering by attaching textures includes separating a texture area to which the texture is attached and a non-texture area to which the texture is not attached in a coordinate system of a rendering-completed image represented by the image portrayal information, compressing the image portrayal information of the non-texture area by a first compression method, and compressing the image portrayal information of the texture area by a second compression method different from the first compression method. | 11-18-2010 |
20110262051 | METHOD FOR THE ENCODING BY SEGMENTATION OF A PICTURE - A method for encoding an image, the encoding being a mixed encoding with the possibility of using a first lossless compression type, and a second lossy compression type, the method including: dividing the image into a plurality of elementary blocks; determining which elementary blocks have a high level of detail; allocating the first type of compression to each elementary block that has a high level of detail; allocating the second compression type to each elementary block that does not have a high level of detail; applying the first type of compression to each elementary block to which the first compression type has been allocated; applying the first compression type to each elementary block directly surrounded by two elementary blocks to which the first compression type has been allocated. | 10-27-2011 |
20120027317 | IMAGE PROCESSING APPARATUS AND METHOD - An image processing apparatus and method capable of compressing a current image using one of a plurality of compression algorithms based upon similarity (or fluctuation level) between a previous image and the current image are discussed. | 02-02-2012 |
20120121199 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING CHIP AND METHOD FOR PROCESSING RAW HIGH RESOLUTION IMAGE DATA - A method for processing a raw high resolution image data comprising the following steps: obtaining the raw high resolution image data, compressing the raw high resolution image data and storing the compressed raw high resolution image data in a current image section of a memory, obtaining a reference image data from a reference image section of the memory, decompressing the raw high resolution image data and comparing the reference image data with the decompressed high resolution image data to generate a resulted image data, compressing the resulted image data and storing the compressed resulted image data in the reference image section of the memory. | 05-17-2012 |
20120170860 | IMAGE DATA OPTIMIZATION SYSTEMS AND METHODS - An exemplary method includes an image data optimization control subsystem subjecting data representative of an image to an image data optimization cycle and repeating the subjecting of data representative of the image to the image data optimization cycle in response to a determination that output data representative of the image produced in conjunction with the previous subjection is optimized by at least the predetermined optimization threshold, wherein the repeat subjection of data representative of the image includes submitting the output data from the previous subjection as new input to the image data optimization cycle. Corresponding systems and methods are also disclosed. | 07-05-2012 |
20120219234 | IMAGE PROCESSING APPARATUS AND CONTROL METHOD THEREFOR - An image processing apparatus which re-encodes encoded data, encoded with a pixel block having a predetermined number of pixels as a coding unit, while suppressing degradation of image quality, with a higher compressibility. For this purpose, when an encoded-image-data input unit inputs JPEG encoded data with an 8×8 pixel block as a coding unit, a redundancy estimation unit performs encoding on the encoded data, and sets an encoded data amount obtained by the coding, as a target code amount for a recompressor to perform coding in accordance with JPEG 2000 coding. The inputted encoded data is decompressed by a decompressor, and the recompressor generates encoded data in the previously-determined target code amount. The code amount control is performed by deleting the encoded data in bit planes in an order from a least significant bit plane toward a high-order bit plane. | 08-30-2012 |
20120269452 | IMAGE DATA PROCESSING APPARATUS, IMAGE DATA PROCESSING METHOD, AND COMPUTER READABLE MEDIUM - An image data processing apparatus includes the following elements. A lossless compression device performs lossless compression. A configuration controller performs control so that a first configuration including a first line memory set and a decompression circuit set and a second configuration including a second line memory set are selectively set in a reconfigurable circuit. A maximum size determining device determines the maximum size of lines of the compressed image data. An output controller performs control so that, when the maximum size is equal to or smaller than a predetermined threshold, the first configuration is set and the compressed image data is output to an image processing circuit via the first line memory set, and so that, when the maximum size is greater than the predetermined threshold, the second configuration is set and the non-compressed image data is output to the image processing circuit via the second line memory set. | 10-25-2012 |
20120288211 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD OF IMAGE PROCESSING APPARATUS, AND PROGRAM - An image processing apparatus includes an intermediate data generation unit configured to generate intermediate data having different attributes by compressing image data of each tile using a lossless compression method or a lossy compression method according to a tile attribute, an intermediate data rendering unit configured to generate raster image data by decompressing the generated intermediate data, and an enlargement unit configured to perform an enlargement process on the image data or the raster image data according to the tile attribute. | 11-15-2012 |
20130129244 | Method for coding of stereoscopic depth - A method for coding a stereoscopic depth. The method includes encoding a signal varied in a non-linear relation to the stereoscopic depth so as to obtain a transformed signal, and decoding the transformed signal using an inverse non-linear transformation so as to reconstruct the stereoscopic depth. The dynamics of the transformed signal for small values of the stereoscopic depth are greater than the dynamics of the transformed signal for large values of the stereoscopic depth. | 05-23-2013 |
20130223752 | BASIS VECTOR SPECTRAL IMAGE COMPRESSION - Computer implemented methods for compressing 3D hyperspectral image data having a plurality of spatial pixels associated with a hyperspectral image, and a number of spectral dimensions associated with each spatial pixel, include receiving, using a processor, the 3D hyperspectral image data, a set of basis vectors associated therewith, and either a maximum error amount or a maximum data size. The methods also include partitioning the 3D hyperspectral image data into a plurality of 2D images, each associated with one of the number of spectral dimensions, and an associated one of the set of basis vectors. The methods additionally include ranking the set of basis vectors if not already ranked. The methods may further include iteratively applying lossy compression to the 2D images, in an order determined by the ranking. Other embodiments and features are also disclosed. | 08-29-2013 |
20130330016 | IMAGE PROCESSING APPARATUS, METHOD, AND PROGRAM - There is provided an image processing apparatus including a tone mapper that losslessly tone maps image data in a floating-point representation, a base layer generator that generates base layer image data by reducing a bit depth of the image data tone mapped by the tone mapper, and an enhancement layer generator that generates enhancement layer data by using the image data tone mapped by the tone mapper and the base layer image data generated by the base layer generator. | 12-12-2013 |
20130343668 | Low Delay Low Complexity Lossless Compression System - A method for compressing data is disclosed. The method may include receiving data from one or more data sources. The method may also include selectively classifying the data into one or more data streams, the one or more data streams including at least PCM-encoded data and image data. The method may further include separately compressing the PCM-encoded data and the image data into first and second compressed bit-streams. The method may also include shuffling the first and second compressed bit-streams. | 12-26-2013 |
20140044371 | DATA STORAGE CONTROLLING DEVICE, DATA READING CONTROLLING DEVICE, AND DATA STORING METHOD - A data storage controlling device has: a compression unit which performs lossless compression on each compression object region; determination means which determines whether or not the lossless compression is possible in each compression determination region including a plurality of compression object regions; and a storage control unit which performs storage control in each compression determination region in such a manner that data after the lossless compression in a compression determination region is stored as compressed data into a storage unit when it is determined that the lossless compression in each compression object region included in the certain compression determination region is possible, and image data before the lossless compression in the certain compression determination region is stored into the storage unit when it is determined that the lossless compression in each compression object region included in the certain compression determination region is impossible. | 02-13-2014 |
20140056532 | LOSSLESS COMPRESSION OF FRAGMENTED IMAGE DATA - Lossless compression of fragmented image data is disclosed. In some embodiments, a stream of information is received, wherein the stream of information comprises a sequence of tuples and wherein each of the tuples comprises data elements corresponding to one of a plurality of input channels. A channel transformer is employed to rearrange the data elements into a plurality of output channels for an output stream wherein the output channels have higher compressibility than the input channels. The compressed output stream is stored. | 02-27-2014 |
20140105514 | METHOD AND APPARATUS FOR PERFORMING LOSSY IMAGE COMPRESSION THROUGH SOURCE QUANTIZATION AND LOSSLESS COMPRESSION KERNEL, AND RELATED METHOD AND APPARATUS FOR IMAGE DECOMPRESSION - An image compression method has at least the following steps: receiving source pixel data of a plurality of blocks of a frame; when a lossless compression mode is enabled for the frame, bypassing a source quantization operation and applying a lossless compression kernel to source pixel data of each of the blocks; and when a lossy compression mode is enabled for the frame, applying the source quantization operation to the source pixel data of each of the blocks to generate input pixel data of each of the blocks, and applying the lossless compression kernel to the input pixel data of each of the blocks. For example, the source quantization operation employs an adaptive quantization parameter for each of the blocks such that a size of compressed data of the frame generated under the lossy compression mode does not exceed a bit budget. | 04-17-2014 |
20140254950 | SUPER RESOLUTION ENCODING SCREENS THAT MINIMIZE AFFECTS OF LOSSY COMPRESSION AND DATA VARIATIONS - Methods and systems for super resolution encoding. A matching pattern can be encoded with respect to an original pattern to generate a matching function for converting a screen into an IOT screen. Then, an operation can be implemented for accounting for a disturbance that causes a change in gray value that includes a minimal error while remaining close to the original pattern. The gray value is then mapped to the matching pattern via the matching function to convert the screen into the IOT screen and thereby minimize the effects of lossy compression and data variations caused by the disturbance. | 09-11-2014 |
20150326872 | METHOD FOR IMAGE COMPRESSION AND PRE-DIAGNOSIS IN THREE-DIMENSIONAL REMOTE ULTRASOUND DIAGNOSTIC APPARATUS - A method of compressing and pre-diagnosing an image in a three-dimensional remote ultrasound diagnostic apparatus, the method including: a first step of combining two-dimensional images scanned by a scanning unit and generating a three-dimensional volume image, by a processing unit; a second step of selecting a compression scheme for the three-dimensional volume image and compressing the three-dimensional volume image using the selected compression scheme; a third step of storing the compressed three-dimensional volume image in a database unit; a fourth step of pre-diagnosing an abnormal three-dimensional volume image from among stored three-dimensional volume images; and a fifth step of transmitting the abnormal three-dimensional volume image to a hospital capable of providing a diagnosis, by a data transmitting unit. | 11-12-2015 |
20150382004 | LIMITED ERROR RASTER COMPRESSION - Embodiments of the invention relate to an image or raster compression method that includes receiving pixel data for a raster comprising a two dimensional (2D) array of pixels where each pixel is associated with a data value. The method further includes receiving a user defined parameter defining a maximum error allowable per pixel for a compression algorithm. The raster can be divided into a number of pixel blocks where each pixel can be quantized and bit stuffed based on a number of block statistics including the maximum error allowable. The method further includes executing the compression algorithm wherein for each pixel, where an error caused by the compression algorithm is equal to or less than the maximum error allowable, and encoding the pixel data based on the compression algorithm. In certain embodiments, the compression algorithm is a non-transform compression algorithm. | 12-31-2015 |
20160127745 | EFFICIENT SCREEN IMAGE TRANSFER - A system including a source display, externally updatable, an image compression algorithm database, a network connection, and a frame transfer engine. The algorithm database comprises a plurality of image compression algorithms. The frame transfer engine is configured to receive a plurality of updates made to the source display, store at least some of the updates in a queue, and select, based on a bandwidth of the network connection, a size of the update, and sizes and times of updates currently present in the queue, an image compression algorithm in the algorithm database for current transfer over the network connection. | 05-05-2016 |
20160205417 | IMAGE PROCESSING APPARATUS, METHOD, AND PROGRAM | 07-14-2016 |