Books on H.264 :
1. I. E. G. Richardson, “H.264 and MPEG-4 video compression: Video coding for Next Generation Multimedia,” New York, Wiley, 2003.
2. S. Okubo et al, “H.264/AVC Textbook (in Japanese, title translated),” Tokyo, Impress Publisher, 2004.
3. S. Ono, T. Murakami and K. Asai, Ubiquitous technology, “Hybrid Video Coding – MPEG-4 and H.264 (In Japanese, title translated)”, Tokyo, Ohmsha Press, 2005.
4. L. Chiariglione (Editor), “The MPEG Representation of Digital Media”, Springer, 2012.
H.264 Standard, JM SOFTWARE
1. ITU – T and ISO/IEC JTC 1, “Advanced video coding for generic audiovisual services,” ITU-T Rec. H.264 & ISO/IEC 14496-10, Version 1, May 2003; version 2, Jan 2004; Version 3 (with High family of profiles), sept 2004; version 4, July 2005 [online] Available: http://www.itu.int/rec/T-REC-H.264.
JM 19.0 Reference software (6/19/2015) also updates on KTA.
DCT references
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N. Ahmed, M. Natarajan and K.R. Rao, “Discrete Cosine Transform,” IEEE Trans. Computers, vol. C-23, pp. 90–93, Jan. 1974.
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W. Chen, C. H. Smith, and S. C. Fralick, “A fast computational algorithm for the discrete cosine transform,” IEEE Trans. Commun., vol. COM-25, pp. 1004–1009, Sept. 1977.
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M. Vetterli and A. Ligtenberg “A discrete Fourier-cosine transform chip,” IEEE Journal on Selected Areas of Communications, vol. 4, pp. 49–61, Jan. 1986.
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W.K. Cham and R.J. Clarke, “Application of the principle of dyadic symmetry to the generation of orthogonal transform,” IEE Proc. F: Communications, Radar and Signal Processing, vol. 133, no. 3, pp. 264–270, June 1986.
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C. Loeffler, A. Lightenberg and G. Moschytz, “Practical fast 1-D DCT algorithms with 11 multiplications,” Proc. IEEE ICASSP, vol. 2, pp. 988-991, Feb. 1989.
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W.K. Cham, “Development of integer cosine transforms by the principle of dyadic symmetry”, IEE Proc. Communication, Speech and Vision, vol. 136, issue 4, pp. 276-282, 1989.
17 M. Masera, M. Martina and G. Masera, “Adaptive approximated DCT architectures for HEVC”, IEEE Trans. CSVT (Early access).This has several references related to integer DCT architectures. Same as [E381]
18 S.-H. Bae, J. Kim and M. Kim, “HEVC-Based perceptually adaptive video coding using a DCT-Based local distortion detection probability”, IEEE Trans. on Image Processing, vol. 25, pp. 3343-3357, July 2016. Same as [E377].
19. Z. Zhang et al, “Focus and blurriness measure using reorganized DCT coefficients for auto focus” IEEE Trans. CSVT, Early access.
20. S.-H. Bae and M. Kim, “DCT-QM; a dct-BASED QUALITY DEGRADATION METRIC FOR IMAGE QUALITY OPTIMIZATION PROBLEM”, IEEE Trans. IP, vol.25, pp. 4916-4930, Oct. 2016.
21. M. Jridi and P.K. Meher, “A scalable approximate DCT architectures for efficient HEVC compliant video coding” IEEE Trans. CSVT, (early access) See also P.K. Meher et al, “Generalized architecture for integer DCT of lengths N = 8, 16 and 32, IEEE Trans. CSVT, vol. 24, pp.168-178, Jan. 2014.
22. V. Dhandapani and S. Ramachandran, “Area and power efficient DCT architecture for image compression”,
EURASIP Journal on Advances in Signal Processing, vol. , 20142014:180
23 M. Narroschke, “
Coding Efficiency of the DCT and DST in Hybrid Video Coding”, IEEE Journal on selected topics in Signal Processing, vol.7, pp. 1062-1071, Dec. 2013.
24. G. Fracastoro, S.M. Fosson and E. Magli, “Steerable discrete cosine transform”, IEEE Trans. IP, (Early access) Same as [E392].
MPA.P8: Transform Coding (ieee icip 2016)
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Session Type: Poster
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Time: Monday, September 26, 14:00 - 15:20
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Location: Room 301 CD: Poster Area 8
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Session Chair: Onur Guleryuz, LG Electronics Mobile Research Lab
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MPA.P8.1: A STAIRCASE TRANSFORM CODING SCHEME FOR SCREEN CONTENT VIDEO CODING
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Cheng Chen; University of Iowa
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Jingning Han; Google Inc.
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Yaowu Xu; Google Inc.
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James Bankoski; Google Inc.
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MPA.P8.2: FAST MCT OPTIMIZATION FOR THE COMPRESSION OF WHOLE-SLIDE IMAGES
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Miguel Hernandez-Cabronero; University of Warwick
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Victor Sanchez; University of Warwick
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Francesc Auli-LLinas; Universitat Autònoma de Barcelona
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Joan Serra-Sagristà; Universitat Autònoma de Barcelona
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MPA.P8.3: GBST: SEPARABLE TRANSFORMS BASED ON LINE GRAPHS FOR PREDICTIVE VIDEO CODING
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Hilmi E. Egilmez; University of Southern California
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Yung-Hsuan Chao; University of Southern California
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Antonio Ortega; University of Southern California
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Bumshik Lee; LG Electronics Inc.
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Sehoon Yea; LG Electronics Inc.
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MPA.P8.4: H.264 INTRA CODING WITH TRANSFORMS BASED ON PREDICTION INACCURACY MODELING
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Xun Cai; Massachusetts Institute of Technology
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Jae Lim; Massachusetts Institute of Technology
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MPA.P8.5: ROW-COLUMN TRANSFORMS: LOW-COMPLEXITY APPROXIMATION OF OPTIMAL NON-SEPARABLE TRANSFORMS
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Hilmi E. Egilmez; University of Southern California
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Onur G. Guleryuz; LG Electronics Inc.
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Jana Ehmann; LG Electronics Inc.
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Sehoon Yea; LG Electronics Inc.
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MPA.P8.6: EXTENDED BLOCK-LIFTING-BASED LAPPED TRANSFORMS
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Taizo Suzuki; University of Tsukuba
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Hiroyuki Kudo; University of Tsukuba
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MPA.P8.7: TRANSFORM-CODED PEL-RECURSIVE VIDEO COMPRESSION
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Jana Ehmann; LG Electronics Inc.
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Onur G. Guleryuz; LG Electronics Inc.
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Sehoon Yea; LG Electronics Inc.
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MPA.P8.8: RATE-CONSTRAINED SUCCESSIVE ELIMINATION OF HADAMARD-BASED SATDS
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Ismael Seidel; Federal University of Santa Catarina
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Luiz Cancellier; Federal University of Santa Catarina
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José Luís Güntzel; Federal University of Santa Catarina
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Luciano Agostini; Federal University of Pelotas
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