5.4.6.1 JPEG Standards and Use

Chapter Contents (Back)
Compression. JPEG Coding. jpeg is partly based on DCT coding.
See also DCT Computation.
See also JPEG 2000, Discussion, Generation, and Use, JPEG2000.
See also Encryption or JPEG Coded Images, JPEG and Encryption.

JPEG: Joint Photographic Experts Group,
Online2007.
WWW Link. Society, JPEG. Society, Image Analysis. Code, Image Processing. The JPEG standards committee. Code, standards, etc. BibRef 0700

Wallace, G.K.[Gregory K.],
The JPEG Still Picture Compression Standard,
CACM(34), No. 4, April 1991. pp. 30-44. JPEG Standard. Both an 8X8 DCT based and predictive lossless coding. BibRef 9104

Cockroft, G.[Greg], and Hourvitz, L.[Leo],
NeXTstep: Putting JPEG to Multiple Uses,
CACM(34), No. 4, April 1991. pp. 45. Application of JPEG in the NeXTstep system. BibRef 9104

Pennebaker, W.B., and Mitchell, J.L.,
The JPEG Still Image Data Compression Standard,
Van Nostrand-Reinhold1993. BibRef 9300

Lammi, L., Sarjakoski, T.,
Image Compression by the JPEG Algorithm,
PhEngRS(61), No. 10, October 1995, pp. 1261-1266. BibRef 9510

Lakhani, G., Zhong, N.,
Derivation of Prediction Equations for Blocking Effect Reduction,
CirSysVideo(9), No. 4, April 1999, pp. 415.
IEEE Top Reference.
See also Improved Equations for JPEGs Blocking Artifacts Reduction Approach. BibRef 9904

Lakhani, G., Ayyagari, V.,
Improved Huffman code tables for JPEG's encoder,
CirSysVideo(5), No. 6, December 1995, pp. 562-564.
IEEE Top Reference. 0206
BibRef

Lakhani, G.,
Modified JPEG Huffman coding,
IP(12), No. 2, February 2003, pp. 159-169.
IEEE DOI 0304
BibRef

Lakhani, G.,
Improved Image Reproduction from DC Components,
OptEng(35), No. 12, December 1996, pp. 3449-3452. 9701

See also Improved Equations for JPEGs Blocking Artifacts Reduction Approach. BibRef

Lakhani, G.,
Improving DC Coding Models of JPEG Arithmetic Coder,
SPLetters(11), No. 5, May 2004, pp. 505-508.
IEEE Abstract. 0404
BibRef

Shneier, M., Abdel-Mottaleb, M.,
Exploiting the JPEG Compression Scheme for Image Retrieval,
PAMI(18), No. 8, August 1996, pp. 849-853.
IEEE DOI 9609
BibRef

Shen, B., Sethi, I.K.,
Scanline Algorithms in the JPEG Discrete Cosine Transform Compressed Domain,
JEI(5), No. 2, April 1996, pp. 182-190. 9609
BibRef

Crouse, M., Ramchandran, K.,
Joint Thresholding and Quantizer Selection for Transform Image-Coding: Entropy-Constrained Analysis and Applications to Base-Line JPEG,
IP(6), No. 2, February 1997, pp. 285-297.
IEEE DOI 9703
BibRef
Earlier:
Nonlinear constrained least squares estimation to reduce artifacts in block transform-coded images,
ICIP95(I: 462-465).
IEEE DOI 9510
BibRef

de Queiroz, R.L., Choi, C.K., Huh, Y., Rao, K.R.,
Wavelet Transforms in a JPEG-Like Image Coder,
CirSysVideo(7), No. 2, April 1997, pp. 419-424.
IEEE Top Reference. 9704
BibRef

de Queiroz, R.L.[Ricardo L.],
Method of compressing JPEG files,
US_Patent6,167,153, Dec 26, 2000
WWW Link. Most complex on a subset of the image. BibRef 0012

Xiong, Z.X., Orchard, M.T., Zhang, Y.Q.,
A Deblocking Algorithm for JPEG Compressed Images Using Overcomplete Wavelet Representations,
CirSysVideo(7), No. 2, April 1997, pp. 433-437.
IEEE Top Reference. 9704
BibRef

Prost, R., Ding, Y., Baskurt, A.,
JPEG Dequantization Array for Regularized Decompression,
IP(6), No. 6, June 1997, pp. 883-888.
IEEE DOI 9705
BibRef

Philips, W.,
Corrections to 'JPEG Dequantization Array for Regularized Decompression',
IP(7), No. 12, December 1998, pp. 1725.
IEEE DOI 9812
BibRef

Liu, C.P.,
A New Two Successive Process Image Compression Technique Using Subband Coding and JPEG Discrete Cosine Transform Coding,
GMIP(59), No. 3, May 1997, pp. 179-191. 9708
BibRef

Chang, C.H.[Chih-Hsin], Leou, J.J.[Jin-Jang],
Detection and Correction of Transmission Errors in DPCM Images,
CirSysVideo(5), No. 2, April 1995, pp. 166-171.
IEEE Top Reference. 0206
BibRef

Han, Y.H., Leou, J.J.,
Detection and Correction of Transmission Errors in JPEG Images,
CirSysVideo(8), No. 2, April 1998, pp. 221-231.
IEEE Top Reference. 9804

See also Detection and Correction of Transmission Errors in Pyramid Images. BibRef

Bakshi, M., Fuhrmann, D.R.,
Improving the Visual Quality of JPEG-Encoded Images via Companding,
JEI(6), No. 2, April 1997, pp. 189-197. 9807
BibRef

Morgan, A.P., Watson, L.T., Young, R.A.,
A Gaussian Derivative Based Version of JPEG For Image Compression and Decompression,
IP(7), No. 9, September 1998, pp. 1311-1320.
IEEE DOI 9809
BibRef

Hsung, T.C.[Tai-Chiu], Lun, D.P.K.[Daniel Pak-Kong], Siu, W.C.[Wan-Chi],
A Deblocking Technique for Block-transform Compressed Image Using Wavelet Transform Modulus Maxima,
IP(7), No. 10, October 1998, pp. 1488-1496.
IEEE DOI BibRef 9810
Earlier:
A Deblocking Technique for JPEG Decoded Image Using Wavelet Transform Modulus Maxima Representation,
ICIP96(II: 561-564).
IEEE DOI BibRef

vander Kam, R.A., Wong, P.W.[Ping Wah], Gray, R.M.,
JPEG-Compliant Perceptual Coding for a Grayscale Image Printing Pipeline,
IP(8), No. 1, January 1999, pp. 1-14.
IEEE DOI BibRef 9901
Earlier:
Convergence of an iterative design algorithm for JPEG quantization tables,
ICIP95(II: 81-84).
IEEE DOI 9510
BibRef

Vander Kam, R.A., Gray, R.M.,
Lossy compression of clustered-dot halftones,
ICIP94(III: 836-840).
IEEE DOI 9411
BibRef

Aharoni, G.[Gil], Averbuch, A.Z.[Amir Z.], Coifman, R.R., Israeli, M.[Moshe],
Local cosine transform-A method for the reduction of the blocking effect in JPEG,
JMIV(3), No. 1, 1993, pp. 7-38. BibRef 9300

Konstantinides, K., Bhaskaran, V., Beretta, G.,
Image Sharpening in the JPEG Domain,
IP(8), No. 6, June 1999, pp. 874-878.
IEEE DOI BibRef 9906
Earlier: A2, A3, A1:
Text and Image Sharpening of Scanned Images in the JPEG Domain,
ICIP97(II: 326-329).
IEEE DOI BibRef

Linzer, E.[Elliot],
Super efficient decoding of color JPEG images on RISC machines,
SP:IC(8), No. 1, January 1996, pp. 13-24.
Elsevier DOI BibRef 9601

Abdat, M.[Mourad], Al-Kachouh, Z.[Ziad], Bellanger, M.G.[Maurice G.],
Transmission error detection and concealment in JPEG images,
SP:IC(13), No. 1, July 1998, pp. 45-64.
Elsevier DOI BibRef 9807
Earlier: A1, A3, Only:
Combining Gray coding and JBIG for lossless image compression,
ICIP94(III: 851-855).
IEEE DOI 9411
BibRef

Price, J.R., Rabbani, M.,
Biased Reconstruction for JPEG Decoding,
SPLetters(6), No. 12, December 1999, pp. 297.
IEEE Top Reference. 9911
BibRef

In, J., Shirani, S., Kossentini, F.,
On RD Optimized Progressive Image Coding Using JPEG,
IP(8), No. 11, November 1999, pp. 1630-1638.
IEEE DOI 9911
BibRef

Ramos, M.G., de Queiroz, R.L.,
Classified JPEG Coding of Mixed Document Images for Printing,
IP(9), No. 4, April 2000, pp. 716-720.
IEEE DOI 0004
BibRef

de Queiroz, R.L., Fleckenstein, P.,
Very Fast JPEG Compression Using Hierarchical Vector Quantization,
SPLetters(7), No. 5, May 2000, pp. 97-99.
IEEE Top Reference. 0005
BibRef

Konstantinides, K., Tretter, D.,
A JPEG Variable Quantization Method for Compound Documents,
IP(9), No. 7, July 2000, pp. 1282-1287.
IEEE DOI 0006
BibRef
Earlier:
A method for variable quantization in JPEG for improved text quality in compound documents,
ICIP98(II: 565-568).
IEEE DOI 9810
BibRef

Shirani, S., Kossentini, F., Ward, R.K.,
Reconstruction of Baseline JPEG Coded Images in Error Prone Environments,
IP(9), No. 7, July 2000, pp. 1292-1299.
IEEE DOI 0006
BibRef

Zhang, Y.[Ye], Desai, M.D.[Mita D.],
Hyperspectral image compression based on adaptive recursive bidirection prediction/jpeg,
PR(33), No. 11, November 2000, pp. 1851-1861.
Elsevier DOI 0011
BibRef

Grosse, H.J., Varley, M.R., Terrell, T.J., Chan, Y.K.,
Improved coding of transform coefficients in JPEG-like image compression schemes,
PRL(21), No. 12, November 2000, pp. 1061-1069. 0011
BibRef

Jiang, J., Guo, B., Yang, S.Y.,
Revisiting the JPEG-LS prediction scheme,
VISP(147), No. 6, December 2000, pp. 575-580. 0101
BibRef

Jiang, J., Grecos, C.[Christos],
A low cost design of rate controlled JPEG-LS near lossless image compression,
IVC(19), No. 3, February 2001, pp. 153-164.
Elsevier DOI 0103

See also Low computational cost improvements of the rate-distortion performance in MPEG-2 rate control. BibRef

Lin, C.Y.[Ching-Yung], Chang, S.F.[Shih-Fu],
A robust image authentication method distinguishing JPEG compression from malicious manipulation,
CirSysVideo(11), No. 2, February 2001, pp. 153-168.
IEEE Top Reference. 0104
BibRef

Wang, C.Y.[Ching-Yang], Lee, S.M.[Shiuh-Ming], Chang, L.W.[Long-Wen],
Designing JPEG Quantization Tables based on Human Visual System,
SP:IC(16), No. 5, January 2001, pp. 501-506.
Elsevier DOI 0201
BibRef
Earlier: ICIP99(II:376-380).
IEEE DOI BibRef

Meesters, L.[Lydia], Martens, J.B.[Jean-Bernard],
A single-ended blockiness measure for JPEG-coded images,
SP(82), No. 3, 2002, pp. 369-387.
HTML Version. 0205
BibRef

Privitera, C.M.[Claudio M.], Azzariti, M.[Michela], Ho, Y.F.[Yeuk F.], Stark, L.W.[Lawrence W.],
A comparative study of focused JPEG compression, Fjpeg,
PRL(23), No. 10, August 2002, pp. 1119-1127.
Elsevier DOI 0205
BibRef

Pan, S.B.[Sung Bum], Park, R.H.[Rae-Hong],
Systolic array architectures for computation of the discrete wavelet transform,
JVCIR(14), No. 3, September 2003, pp. 217-231.
Elsevier DOI 0308
BibRef

Zaid, A.O.[Azza Ouled], Olivier, C.[Christian], Alata, O.[Olivier], Marmoiton, F.[Francois],
Transform image coding with global thresholding: Application to baseline JPEG,
PRL(24), No. 7, April 2003, pp. 959-964.
Elsevier DOI 0301
BibRef

Fan, Z.G.[Zhi-Gang], de Queiroz, R.L.,
Identification of Bitmap Compression History: JPEG Detection and Quantizer Estimation,
IP(12), No. 2, February 2003, pp. 230-235.
IEEE DOI 0304
BibRef
Earlier:
Maximum Likelihood Estimation of JPEG Quantization Table in the Identification of Bitmap Compression History,
ICIP00(Vol I: 948-951).
IEEE DOI 0008
Code:
See also Reliable JPEG Quantization Table Estimator, A. BibRef

Bedi, S., Edirisinghe, E.A., Grecos, G.,
Improvements to the JPEG-LS prediction scheme,
IVC(22), No. 1, January 2004, pp. 9-14.
Elsevier DOI 0401
BibRef

Krupinski, R., Purczynski, J.,
First Absolute Moment and Variance Estimators Used in JPEG Reconstruction,
SPLetters(11), No. 8, August 2004, pp. 674-677.
IEEE Abstract. 0409
BibRef

Neelamani, R.N., de Queiroz, R.L., Fan, Z.G.[Zhi-Gang], Dash, S., Baraniuk, R.G.,
JPEG Compression History Estimation for Color Images,
IP(15), No. 6, June 2006, pp. 1365-1378.
IEEE DOI 0606
BibRef
Earlier: A1, A2, A3, A5 only: ICIP03(III: 245-248).
IEEE DOI 0312
BibRef

Neelamani, R.N., Baraniuk, R.G., de Queiroz, R.L.,
Compression Color Space Estimation of JPEG Images Using Lattice Basis Reduction,
ICIP01(I: 890-893).
IEEE DOI 0108
BibRef

Nguyen, C., Redinbo, G.R.,
Detecting Computer-Induced Errors in Remote-Sensing JPEG Compression Algorithms,
IP(15), No. 7, July 2006, pp. 1728-1739.
IEEE DOI 0606
BibRef

Krupinski, R., Purczynski, J.,
Modeling the distribution of DCT coefficients for JPEG reconstruction,
SP:IC(22), No. 5, June 2007, pp. 439-447.
Elsevier DOI 0707
Generalized Gaussian distribution; Estimation; Maximum likelihood estimation; Moment methods; JPEG; JPEG reconstruction BibRef

Raguram, R., Marcellin, M.W.[Michael W.], Bilgin, A.[Ali],
Improved Resolution Scalability for Bilevel Image Data in JPEG2000,
IP(18), No. 4, April 2009, pp. 774-782.
IEEE DOI 0903
BibRef

Bonyadi, M.R.[Mohammad Reza], Moghaddam, M.E.[Mohsen Ebrahimi],
A Nonuniform High-quality Image Compression Method To Preserve User-specified Compression Ratio,
IJIG(11), No. 1, January 2011, pp. 355-375.
DOI Link 1108
BibRef

Bonyadi, M.R., Dehghani, E., Moghaddam, M.E.,
A non-uniform image compression using genetic algorithm,
WSSIP08(315-318).
IEEE DOI 0806
adaptive block transform. BibRef

Kim, Y.J.[Young-Jin], Shin, H.J.[Hyun Joon], Choi, J.J.[Jung-Ju], Wee, Y.C.[Young-Cheul],
On Improving JPEG Entropy Coding by means of Sub-Stream Extraction,
IEICE(E95-D), No. 11, November 2012, pp. 2737-2740.
WWW Link. 1211
BibRef

Pascual, J.M.[Jerónimo Mora], Mora, H.M.[Higinio Mora], Guilló, A.F.[Andrés Fuster], López, J.A.[Jorge Azorín],
Adjustable compression method for still JPEG images,
SP:IC(32), No. 1, 2015, pp. 16-32.
Elsevier DOI 1503
Image representation BibRef

Sencar, H.[Husrev],
Recovering image data from JPEG file fragments,
SPIE(Newsroom), February 12, 2015.
DOI Link 1504
A new technique for recovering fragmented data files can retrieve elements of a JPEG compressed image even when the file's header is unavailable. BibRef

Hu, W.[Wei], Cheung, G.[Gene], Kazui, M.,
Graph-based Dequantization of Block-Compressed Piecewise Smooth Images,
SPLetters(23), No. 2, February 2016, pp. 242-246.
IEEE DOI 1602
data compression BibRef

Artusi, A., Mantiuk, R.K., Richter, T., Korshunov, P., Hanhart, P., Ebrahimi, T., Agostinelli, M.,
JPEG XT: A Compression Standard for HDR and WCG Images,
SPMag(33), No. 2, March 2016, pp. 118-124.
IEEE DOI 1603
Standards in a Nutshell item. Decoding BibRef

Mehrabi, M.[Mahdi], Zargari, F.[Farzad], Ghanbari, M.[Mohammad], Shayegan, M.A.[Mohammad Amin],
Fast content access and retrieval of JPEG compressed images,
SP:IC(46), No. 1, 2016, pp. 54-59.
Elsevier DOI 1606
JPEG images. Access content without full decompression. BibRef

Richter, T., Artusi, A., Ebrahimi, T.,
JPEG XT: A New Family of JPEG Backward-Compatible Standards,
MultMedMag(23), No. 3, July 2016, pp. 80-88.
IEEE DOI 1609
image coding BibRef

Hanhart, P.[Philippe], Ebrahimi, T.[Touradj],
Evaluation of JPEG XT for high dynamic range cameras,
SP:IC(50), No. 1, 2017, pp. 9-20.
Elsevier DOI 1612
High dynamic range BibRef

Hudson, G., Léger, A., Niss, B., Sebestyén, I.,
JPEG at 25: Still Going Strong,
MultMedMag(24), No. 2, April 2017, pp. 96-103.
IEEE DOI 1705
Computer graphics, Graphics, ISO Standards, Image coding, Multimedia communication, Transform coding, Transforms, JPEG, graphics, history of computing, multimedia, standardization BibRef

Suzuki, T., Yoshida, T.,
Lower Complexity Lifting Structures for Hierarchical Lapped Transforms Highly Compatible With JPEG XR Standard,
CirSysVideo(27), No. 12, December 2017, pp. 2652-2660.
IEEE DOI 1712
Adders, Complexity theory, Image coding, Standards, Symmetric matrices, Transform coding, Transforms, lossy-to-lossless image coding BibRef

Rahul, K.[Kumar], Tiwari, A.K.[Anil Kumar],
Saliency enabled compression in JPEG framework,
IET-IPR(12), No. 7, July 2018, pp. 1142-1149.
DOI Link 1806
BibRef

Wu, X.Y.[Xian-Yan], Han, Q.[Qi], Niu, X.[Xiamu], Zhang, H.L.[Hong-Li], Yiu, S.M.[Siu-Ming], Fang, J.B.[Jun-Bin],
JPEG image width estimation for file carving,
IET-IPR(12), No. 7, July 2018, pp. 1245-1252.
DOI Link 1806
BibRef

Young, S.I., Naman, A.T.[Aous Thabit], Taubman, D.S.[David S.],
COGL: Coefficient Graph Laplacians for Optimized JPEG Image Decoding,
IP(28), No. 1, January 2019, pp. 343-355.
IEEE DOI 1810
Decoding, Transform coding, Quantization (signal), Discrete cosine transforms, Image coding, Laplace equations, optimization BibRef

Artusi, A.[Alessandro], Mantiuk, R.K.[Rafal K.], Richter, T.[Thomas], Hanhart, P.[Philippe], Korshunov, P.[Pavel], Agostinelli, M.[Massimiliano], Ten, A.[Arkady], Ebrahimi, T.[Touradj],
Overview and evaluation of the JPEG XT HDR image compression standard,
RealTimeIP(16), No. 2, April 2019, pp. 413-428.
Springer DOI 1904
BibRef

Punnappurath, A.[Abhijith], Brown, M.S.[Michael S.],
Learning Raw Image Reconstruction-Aware Deep Image Compressors,
PAMI(42), No. 4, April 2020, pp. 1013-1019.
IEEE DOI 2003
Generate a coding that is aware of the need for a Raw reconstruction. Image reconstruction, Image coding, Table lookup, Compressors, Transform coding, Cameras, Calibration, Image compression, deep learning-based image compression BibRef

Liu, X.J.[Xian-Jin], Lu, W.[Wei], Zhang, Q.[Qin], Huang, J.[Jiwu], Shi, Y.Q.[Yun-Qing],
Downscaling Factor Estimation on Pre-JPEG Compressed Images,
CirSysVideo(30), No. 3, March 2020, pp. 618-631.
IEEE DOI 2003
Transform coding, Image coding, Estimation, Fourier transforms, Interpolation, Kernel, Spectral analysis, Image forensics, downscaling factor estimation BibRef

Lu, W.[Wei], Zhang, Q.[Qin], Luo, S.J.[Shang-Jun], Zhou, Y.C.[Yi-Cong], Huang, J.W.[Ji-Wu], Shi, Y.Q.[Yun-Qing],
Robust Estimation of Upscaling Factor on Double JPEG Compressed Images,
Cyber(52), No. 10, October 2022, pp. 10814-10826.
IEEE DOI 2209
Transform coding, Image coding, Frequency-domain analysis, Estimation, Forensics, Detectors, Robustness, Image forensics, scaling factor estimation BibRef

Yao, H.[Heng], Wei, H.B.[Hong-Bin], Qiao, T.[Tong], Qin, C.[Chuan],
JPEG quantization step estimation with coefficient histogram and spectrum analyses,
JVCIR(69), 2020, pp. 102795.
Elsevier DOI 2006
Image forensics, JPEG compression, Quantization-step estimation, Periodicity analysis BibRef

Araujo, L.C.[Leonardo C.], Sansao, J.P.H.[Joao P. H.], Junior, M.C.S.[Mario C. S.],
Effects of Color Quantization on JPEG Compression,
IJIG(20), No. 3, July 2020, pp. 2050026.
DOI Link 2008
BibRef

Yuan, X., Haimi-Cohen, R.,
Image Compression Based on Compressive Sensing: End-to-End Comparison With JPEG,
MultMed(22), No. 11, November 2020, pp. 2889-2904.
IEEE DOI 2010
Image coding, Transform coding, Quantization (signal), Sensors, Image reconstruction, Reconstruction algorithms, Bit rate, JPEG2000 BibRef

Zhang, Y.[Yumo], Cai, Z.C.[Zhan-Chuan], Xiong, G.Q.[Gang-Qiang],
A New Image Compression Algorithm Based on Non-Uniform Partition and U-System,
MultMed(23), 2021, pp. 1069-1082.
IEEE DOI 2103
Image coding, Transform coding, Partitioning algorithms, Complexity theory, Quantization (signal), Compression algorithms, non-uniform rectangular partition BibRef

Yang, J., Zhang, Y., Zhu, G., Kwong, S.,
A Clustering-Based Framework for Improving the Performance of JPEG Quantization Step Estimation,
CirSysVideo(31), No. 4, April 2021, pp. 1661-1672.
IEEE DOI 2104
Quantization (signal), Transform coding, Estimation, Image coding, Discrete cosine transforms, Histograms, Forensics, image forensics BibRef

Descampe, A.[Antonin], Richter, T.[Thomas], Ebrahimi, T.[Touradj], Foessel, S.[Siegfried], Keinert, J.[Joachim], Bruylants, T.[Tim], Pellegrin, P.[Pascal], Buysschaert, C.[Charles], Rouvroy, G.[Gaël],
JPEG XS: A New Standard for Visually Lossless Low-Latency Lightweight Image Coding,
PIEEE(109), No. 9, September 2021, pp. 1559-1577.
IEEE DOI 2108
Transform coding, Streaming media, Image coding, Codecs, Real-time systems, Broadcasting, Graphics processing units, video BibRef

Nikoukhah, T.[Tina ], Anger, J.[Jérémy], Colom, M.[Miguel], Morel, J.M.[Jean-Michel], von Gioi, R.G.[Rafael Grompone],
ZERO: a Local JPEG Grid Origin Detector Based on the Number of DCT Zeros and its Applications in Image Forensics,
IPOL(11), 2021, pp. 396-433.
DOI Link 2112
Code, JPEG Analysis. A statistical test, based on Desolneux, Moisan and Morel's a contrario theory, is used to decide when a significant JPEG grid.
See also From Gestalt Theory to Image Analysis: A Probabilistic Approach. BibRef

Nikoukhah, T.[Tina], Colom, M.[Miguel], Morel, J.M.[Jean-Michel], von Gioi, R.G.[Rafael Grompone],
A Reliable JPEG Quantization Table Estimator,
IPOL(12), 2022, pp. 173-197.
DOI Link 2206
Code, JPEG. Code, Forensics, JPEG.
See also Identification of Bitmap Compression History: JPEG Detection and Quantizer Estimation. BibRef

Jeong, S.[Seonghye], Jeong, S.[Seongmoon], Woo, S.S.[Simon S.], Ko, J.H.[Jong Hwan],
An overhead-free region-based JPEG framework for task-driven image compression,
PRL(165), 2023, pp. 1-8.
Elsevier DOI 2301
Image compression, JPEG, Neural networks, Overhead-free, Accuracy-aware BibRef

Ascenso, J.[Joăo], Alshina, E.[Elena], Ebrahimi, T.[Touradj],
The JPEG AI Standard: Providing Efficient Human and Machine Visual Data Consumption,
MultMedMag(30), No. 1, January 2023, pp. 100-111.
IEEE DOI 2305
Performance evaluation, Visualization, Image coding, Artificial intelligence, Surveillance, Transform coding, Streaming media BibRef


Zheng, K.X.[Kai-Xiang], Salamah, A.H.[Ahmed H.], Ye, L.F.[Lin-Feng], Yang, E.H.[En-Hui],
JPEG Compliant Compression for DNN Vision,
ICIP23(1875-1879)
IEEE DOI Code:
WWW Link. 2312
BibRef

Zhang, J.H.[Jiang-Hui], Wang, Y.Y.[Yuan-Yuan], Guo, L.[Lina], Luo, J.X.[Ji-Xiang], Xu, T.[Tongda], Wang, Y.[Yan], Wang, Z.[Zhi], Qin, H.W.[Hong-Wei],
Unified Learning-Based Lossy and Lossless JPEG Recompression,
ICIP23(216-220)
IEEE DOI 2312
BibRef

Zhang, J.H.[Jiang-Hui], Chen, B.[Bin], Huang, Y.J.[Yu-Jun], Qiu, H.[Han], Wang, Z.[Zhi], Xia, S.T.[Shu-Tao],
Improved DC Estimation for JPEG Compression Via Convex Relaxation,
ICIP22(2461-2465)
IEEE DOI 2211
Image quality, Image coding, Simulation, Estimation, Transform coding, Bandwidth, Video compression, JPEG, DCT, DC estimation BibRef

Wang, I.H., Ding, J.J.,
Deep Learning Based EBCOT Source Symbol Prediction Technique for JPEG2000 Image Compression Architecture,
VCIP20(226-229)
IEEE DOI 2102
Transform coding, Image coding, Feature extraction, Deep learning, Training, Prediction algorithms, Indexes, image compression, adaptive arithmetic coding BibRef

dos Santos, S.F.[Samuel Felipe], Sebe, N.[Nicu], Almeida, J.[Jurandy],
The Good, The Bad, and The Ugly: Neural Networks Straight From JPEG,
ICIP20(1896-1900)
IEEE DOI 2011
Discrete cosine transforms, Transform coding, Image coding, Task analysis, Computational complexity, Decoding, JPEG BibRef

Choi, J.[Jinyoung], Han, B.H.[Bo-Hyung],
Task-aware Quantization Network for JPEG Image Compression,
ECCV20(XX:309-324).
Springer DOI 2011
BibRef

Brummer, B.[Benoit], de Vleeschouwer, C.[Christophe],
Adapting JPEG XS gains and priorities to tasks and contents,
CLIC20(629-633)
IEEE DOI 2008
Transform coding, Task analysis, Optimization, Bit rate, Standards, Image coding BibRef

Ehrlich, M., Davis, L.,
Deep Residual Learning in the JPEG Transform Domain,
ICCV19(3483-3492)
IEEE DOI 2004
approximation theory, convolutional neural nets, data compression, image classification, Machine learning BibRef

Richter, T., Fößel, S.,
Bayer Pattern Compression with JPEG XS,
ICIP19(3177-3181)
IEEE DOI 1910
JPEG XS, CFA Sensor Compression, Bayer Patterns BibRef

Kobayashi, H., Watanabe, O., Kiya, H.,
Two-Layer Near-Lossless HDR Coding with Backward Compatibility to JPEG,
ICIP19(3547-3551)
IEEE DOI 1910
JPEG XT, HDR, Near-Lossless coding, Backward compatibility to JPEG BibRef

Pasquini, C., Bohme, R.,
Towards A Theory of JPEG Block Convergence,
ICIP18(550-554)
IEEE DOI 1809
Image coding, Discrete cosine transforms, Quantization (signal), Transform coding, Gray-scale, Convergence, Forensics, statistical modeling BibRef

Belyaev, E., Mantel, C., Forchhammer, S.,
Low-complexity compression of high dynamic range infrared images with JPEG compatibility,
VCIP17(1-4)
IEEE DOI 1804
data compression, decoding, image coding, image reconstruction, infrared imaging, IR images, IR test images, JPEG baseline decoder, JPEG-XT BibRef

Tuba, E.[Eva], Tuba, M.[Milan], Simian, D.[Dana], Jovanovic, R.[Raka],
JPEG Quantization Table Optimization by Guided Fireworks Algorithm,
IWCIA17(294-307).
Springer DOI 1706
BibRef

Šorel, M., Bartoš, M.,
Efficient JPEG decompression by the alternating direction method of multipliers,
ICPR16(271-276)
IEEE DOI 1705
Discrete cosine transforms, Image coding, Image restoration, Quantization (signal), Standards, Transform coding, ADMM, JPEG, image processing, image restoration, sparsity BibRef

Mantiuk, R.K., Richter, T., Artusi, A.,
Fine-tuning JPEG-XT compression performance using large-scale objective quality testing,
ICIP16(2152-2156)
IEEE DOI 1610
Bit rate BibRef

Richter, T.,
JPEG on STEROIDS: Common optimization techniques for JPEG image compression,
ICIP16(61-65)
IEEE DOI 1610
Discrete cosine transforms BibRef

Yuan, L.[Lin], Ebrahimi, T.[Touradj],
Image transmorphing with JPEG,
ICIP15(3956-3960)
IEEE DOI 1512
JPEG BibRef

Pasquini, C.[Cecilia], Perez-Gonzalez, F.[Fernando], Boato, G.[Giulia],
A Benford-Fourier JPEG compression detector,
ICIP14(5322-5326)
IEEE DOI 1502
Detectors BibRef

Chao, J.S.[Jian-Shu], Chen, H.[Hu], Steinbach, E.G.[Eckehard G.],
On the design of a novel JPEG quantization table for improved feature detection performance,
ICIP13(1675-1679)
IEEE DOI 1402
Feature detectors; JPEG; Quantization table; Scale-space BibRef

Wahl, S., Tantawy, H.A., Wang, Z., Werner, P., Simon, S.,
Exploitation of context classification for parallel pixel coding in JPEG-LS,
ICIP11(2001-2004).
IEEE DOI 1201
BibRef

Gao, Y.[Yu], Chan, D.[Duncan], Liang, J.[Jie],
JPEG XR optimization with graph-based soft decision quantization,
ICIP11(313-316).
IEEE DOI 1201
BibRef

Farinella, G.M.[Giovanni Maria], Battiato, S.[Sebastiano],
On the Application of Structured Sparse Model Selection to JPEG Compressed Images,
CCIW11(137-151).
Springer DOI 1104
BibRef

Mohamad, K.M.[Kamaruddin Malik], Deris, M.M.[Mustafa Mat],
Visualization of JPEG Metadata,
IVIC09(543-550).
Springer DOI 0911
BibRef

Ierodiaconou, S.[Stephen], Byrne, J.[James], Bull, D.R.[David R.], Redmill, D.W.[David W.], Hill, P.[Paul],
Unsupervised image compression using graphcut texture synthesis,
ICIP09(2289-2292).
IEEE DOI 0911
BibRef
Earlier: A2, A1, A3, A4, A5:
Unsupervised image compression-by-synthesis within a JPEG framework,
ICIP08(2892-2895).
IEEE DOI 0810
BibRef

Véhel, J.L.[Jacques Lévy], Mendivil, F.[Franklin], Lutton, E.[Evelyne],
Overcompressing JPEG Images with Evolution Algorithms,
EvoIASP07(383-390).
Springer DOI 0704
BibRef

Guo, L.F.[Lin-Feng], Meng, Y.[Yan],
Psnr-Based Optimization of JPEG Baseline Compression on Color Images,
ICIP06(1145-1148).
IEEE DOI 0610
BibRef

Kuge, T.,
A method of rate control of wavelet picture coding using dynamic programming,
ICIP03(III: 769-772).
IEEE DOI 0312
BibRef

Krivoulets, A., Wu, X.L.[Xiao-Lin],
Hierarchical modeling via optimal context quantization,
CIAP03(380-384).
IEEE DOI 0310
BibRef

Savakis, A.E., Piorun, M.,
Benchmarking and hardware implementation of JPEG-LS,
ICIP02(II: 949-952).
IEEE DOI 0210
BibRef

Kuroki, Y., Ueshige, Y.,
Redesigning of JPEG Statistical Model in the Lossy Mode Fitting Distribution of Dct Coefficients,
ICIP00(Vol III: 825-828).
IEEE DOI 0008
BibRef

Kuroki, Y.[Yoshimitsu], Ueshige, Y.[Yoshifumi], Ohta, T.[Teiji],
New Statistical Models of the JPEG Lossless Mode Subject to the Super High Definition Images,
ICIP99(I:448-452).
IEEE DOI BibRef 9900

Weinberger, M.J.[Marcelo J.], Seroussi, G.[Gadiel], Sapiro, G.,
From LOGO-I to the JPEG-LS Standard,
ICIP99(IV:68-72).
IEEE DOI BibRef 9900

Jung, J., Antonini, M., Barlaud, M.,
Optimal JPEG decoding,
ICIP98(I: 410-414).
IEEE DOI 9810
BibRef

Tong, H.H.Y., Venetsanopoulos, A.N.,
A perceptual model for JPEG applications based on block classification, texture masking, and luminance masking,
ICIP98(III: 428-432).
IEEE DOI 9810
BibRef

Huang, J., Wang, Y., and Wong, E.,
Check Image Compression: A Comparison of JPEG, Wavelet and Layered Coding Methods,
ICIP97(III: 694-697).
IEEE DOI BibRef 9700

Yoo, K.H.[Kwan-Hee], Choi, J.,
A Model Based Method for the Quantizer Assignment of JPEG-Like Coders,
ICIP96(I: 213-216).
IEEE DOI BibRef 9600

Rosenholtz, R., Watson, A.B.,
Perceptual adaptive JPEG coding,
ICIP96(I: 901-904).
IEEE DOI 9610
BibRef

Chapter on Image Processing, Restoration, Enhancement, Filters, Image and Video Coding continues in
JPEG 2000, Discussion, Generation, and Use, JPEG2000 .


Last update:Mar 16, 2024 at 20:36:19