Publications

Zhe Wang, D. Chanda, S. Simon, and T. Richter. Memory efficient lossless compression of image sequences with JPEG-LS and temporal prediction. Picture Coding Symposium (PCS), 2012, 305-308, May 2012. [PUMA: 2000;JPEG-LS;context coding coding;Image coding;image compression;image compression;memory compression;still data efficient encoder;lossy frame images;temporal lossless lossy management;Standards;Transform modeling;embedded prediction;Context;Encoding;Image prediction;temporal-extended reference requirement;online sequences;JPEG sequences;Memory sequences;lossless systems;image] URL

Thomas Richter. Compressing JPEG 2000 JPIP Cache State Information. In James A. Storer Michael W. Marcellin (Eds.), Data Compression Conference (DCC), 2012, 13-21, IEEE, Snowbird, Utah, USA, April 2012. [PUMA: (mathematics);JPEG 2000 2000;JPIP;Zero-Tree Coding JPIP adjustment algorithm;Context;Data browsing cache coding;Image coding;JPEG coding;protocols;trees compression compression;JPIP compression;image data data;interactive databases;modified image information model model;embedded models;Encoding;Image protocol;medical request requests;JPIP resolution;Servers;Transform scheme;http server;cache state syntax;image type zero-tree] URL

Thomas Richter. Perceptual Image Coding by Standard-Constraint Codecs. Picture Coding Symposium, 2009. PCS 2009, 1-4, Chicago, IL, USA, May 2009. [PUMA: 2000;JPEG-XR;codestreams;digital codec;standard-constraint codecs;Code codecs;data coding coding;JPEG coding;Pipelines;Pixel;Standardization;Transform coding;perceptual compression compression;image image images;perceivable loss;perceptual quality standards;Codecs;Decoding;Humans;ISO standards;Image] URL

Zhe Wang, D. Chanda, S. Simon, and T. Richter. Memory efficient lossless compression of image sequences with JPEG-LS and temporal prediction. Picture Coding Symposium (PCS), 2012, 305-308, May 2012. [PUMA: 2000;JPEG-LS;context coding coding;Image coding;image compression;image compression;memory compression;still data efficient encoder;lossy frame images;temporal lossless lossy management;Standards;Transform modeling;embedded prediction;Context;Encoding;Image prediction;temporal-extended reference requirement;online sequences;JPEG sequences;Memory sequences;lossless systems;image] URL

Thomas Richter. Compressing JPEG 2000 JPIP Cache State Information. In James A. Storer Michael W. Marcellin (Eds.), Data Compression Conference (DCC), 2012, 13-21, IEEE, Snowbird, Utah, USA, April 2012. [PUMA: (mathematics);JPEG 2000 2000;JPIP;Zero-Tree Coding JPIP adjustment algorithm;Context;Data browsing cache coding;Image coding;JPEG coding;protocols;trees compression compression;JPIP compression;image data data;interactive databases;modified image information model model;embedded models;Encoding;Image protocol;medical request requests;JPIP resolution;Servers;Transform scheme;http server;cache state syntax;image type zero-tree] URL

Thomas Richter. Perceptual Image Coding by Standard-Constraint Codecs. Picture Coding Symposium, 2009. PCS 2009, 1-4, Chicago, IL, USA, May 2009. [PUMA: 2000;JPEG-XR;codestreams;digital codec;standard-constraint codecs;Code codecs;data coding coding;JPEG coding;Pipelines;Pixel;Standardization;Transform coding;perceptual compression compression;image image images;perceivable loss;perceptual quality standards;Codecs;Decoding;Humans;ISO standards;Image] URL