5.4.1 Coding -- Coding Theory, Communications, etc.

Hamming, R.W.,
Error Detecting and Error Correcting Codes,
Bell System Tech.(29), 1950, pp. 147-160. BibRef 5000

Shannon, C.E.,
A Mathematical Theory of Communications,
Bell System Tech.(27), 1948, pp. 370-423. BibRef 4800

Shannon, C.E., Weaver, W.,
The Mathematical Theory of Communication,
Univ. Ill. Press1959. BibRef 5900

Oliver, B.M.,
Efficient Coding,
Bell System Tech.(31), 14 May 1952, pp. 724-750. BibRef 5205

Laemmel, A.E.,
Coding Processes for Bandwidth Reduction in Picture Transmission,
TRR246-51, Brooklyn Poly., August 1951. BibRef 5108

Elias, P.,
Predictive Coding,
IT(1), No. 1, March 1955, pp. 16-33. BibRef 5503

Riekeman, E.C., Glovazky, A., McCluskey, E.J.,
Determination of Redundancies in a Set of Patterns,
IT(3), No. 2, June 1957, pp. 151-153. BibRef 5706
Earlier: A2 only: IT(2), No. 4, December 1956, pp. 151-153. BibRef

Billings, A.R.,
A Coder for Halving the Bandwidth of Signals,
IEE-P(B: 105), No. 20, March 1958, pp. 182-184. BibRef 5803

Gilbert, E.N., Moore, E.F.,
Variable-Length Binary Encodings,
Bell System Tech.(38), July 1959, pp. 933-966. BibRef 5907

Viterbi, A.J.,
Error bounds for convolutional codes and an asymptotically optimal decoding algorithm,
IT(13), 1967, pp. 260-269. For the more accessible discussion: See also Viterbi Algorithm, The. Method to solve optimal start sequence given observed inputs. A more general solution is dynamic programming. BibRef 6700

Wyner, A.D.[Aaron D.], Ziv, J.,
The Rate-Distortion Function for Source Coding with Side Information at the Decoder,
IT(22), No. 1, January 1976, pp. 1-10. BibRef 7601

Wyner, A.D.[Aaron D.], Ziv, J.[Jacob], and Wyner, A.J.[Abraham J.],
On the role of pattern matching in information theory,
IT(44), 1998, pp. 2045-2056.
Postscript Version. BibRef 9800

Ziv, J., Lempel, A.,
A Universal Algorithm for Sequential Data Compression,
IT(23), 1977, pp. 337-343. Standard lossless compression algorithm. Replace common byte strings with a single code. Should get better as the file gets larger, not good for random data. BibRef 7700

Lempel, A., Ziv, J.,
Compression of Two-Dimensional Data,
IT(32), 1986, pp. 2-8. BibRef 8600

Raab, F.H.[Frederick H.],
Binary data compression by linear transformation,
CGIP(2), No. 1, August 1973, pp. 12-21.
WWW Version. 0501 BibRef

Storer, J.A.,
Toward an Abstract Theory of Data Compression,
TCS(24), 1983, pp. 221-237. BibRef 8300

Rissanen, J.J.,
A Universal Data Compression System,
IT(29), 1983, pp. 656-664. See also Universal Prior for Integers and Esitmation by Minimum Description Length, A. BibRef 8300

Langdon, Jr., G.G.,
A Note on the Ziv-Lempel Model for Compressing Individual Sequences,
IT(29), 1983, pp. 284-287. BibRef 8300

Lelewer, D.A., Hirschberg, D.S.,
Data Compression,
Surveys(19), No. 3, September 1987, pp. 261-296. Survey, Compression. BibRef 8709

Witten, I.H., Neal, R.M., Cleary, J.G.,
Arithmetic coding for data compression,
CACM(30), No. 6, June 1987, pp. 520-540. BibRef 8706

Lafe, O.,
Data Compression and Encryption Using Cellular Automata Transforms,
EngAAI(10), No. 6, December 1997, pp. 581-591. 9807 BibRef

Talbot, B.G., Talbot, L.M.,
Source-Coding with a Permutation-Based Reversible Memory-Binding Transform for Data-Compression in Categorical-Data Domains,
IP(7), No. 9, September 1998, pp. 1238-1241.
IEEE DOI Reference 9809 BibRef

Chen, B.[Biao],
Maximum likelihood estimation of OFDM carrier frequency offset,
SPLetters(9), No. 4, April 2002, pp. 123-126.
IEEE Top Reference. 0206 BibRef

Tseng, H.W.[Hsien-Wen], Chang, C.C.[Chin-Chen],
A Fast and Simple Algorithm for the Construction of Asymmetrical Reversible Variable Length Codes,
RealTimeImg(9), No. 1, February 2003, pp. 3-10.
WWW Version. 0304 BibRef

Xue, S., Xu, Y., Oelmann, B.,
Hybrid Golomb codes for a group of quantised GG sources,
VISP(150), No. 4, August 2003, pp. 256-260.
IEEE Abstract. IEEE Top Reference. 0311 See also Run-Length Encodings. BibRef

Xue, S.[Shang], Oelmann, B.,
Alternating coding for universal variable length code,
ICIP03(III: 477-480).
IEEE Abstract. IEEE Top Reference. 0312 BibRef

Laddomada, M., Mondin, M.,
Decimation Schemes for Sigma-Delta A/D Converters Based on Kaiser and Hamming Sharpened Filters,
VISP(151), No. 4, August 2004, pp. 287-296.
IEEE Abstract. IEEE Top Reference. 0411 BibRef

Shukla, R., Dragotti, P.L., Do, M.N., Vetterli, M.,
Rate-Distortion Optimized Tree-Structured Compression Algorithms for Piecewise Polynomial Images,
IP(14), No. 3, March 2005, pp. 343-359.
IEEE DOI Reference 0501 BibRef
Earlier: A3, A2, A1, A4:
On the Compression of Two-dimensional Piecewise Smooth Functions,
ICIP01(I: 14-17).
IEEE Abstract. IEEE Top Reference. 0108 BibRef

Dragotti, P.L., Vetterli, M., Blu, T.,
Exact Local Reconstruction Algorithms for Signals with Finite Rate of Innovation,
ICIP06(1285-1288). 0610
IEEE DOI Reference BibRef

Brittain, N.J.[Nathanael J.], El-Sakka, M.R.[Mahmoud R.],
Grayscale true two-dimensional dictionary-based image compression,
JVCIR(18), No. 1, February 2007, pp. 35-44.
WWW Version. 0711 BibRef
Earlier:
Grayscale Two-Dimensional Lempel-Ziv Encoding,
ICIAR05(328-334).
Springer DOI Reference 0509Image encoding; Lossless compression; Dictionary-based schemes; Two-dimensional compression; LZ schemes; Prediction BibRef

Pujol, O.[Oriol], Escalera, S.[Sergio], Radeva, P.[Petia],
An incremental node embedding technique for error correcting output codes,
PR(41), No. 2, February 2008, pp. 713-725.
WWW Version. 0711Multiclass classification; Error correcting output codes; Ensemble of dichotomizers; Codeword design; One-versus-one; One-versus-all BibRef

Avudainayagam, A., Shea, J.M., Wu, D.P.[Da-Peng],
Hyper-Trellis Decoding of Pixel-Domain Wyner-Ziv Video Coding,
CirSysVideo(18), No. 5, May 2008, pp. 557-568.
IEEE DOI Reference 0711 See also Rate-Distortion Function for Source Coding with Side Information at the Decoder, The. BibRef

Brites, C.[Catarina], Ascenso, J.[Joao], Pedro, J.Q.[Jose Quintas], Pereira, F.[Fernando],
Evaluating a feedback channel based transform domain Wyner-Ziv video codec,
SP:IC(23), No. 4, April 2008, pp. 269-297.
WWW Version. 0711Distributed video coding; Wyner-Ziv video coding; Turbo coding; Performance evaluation See also Rate-Distortion Function for Source Coding with Side Information at the Decoder, The. BibRef

Pereira, F.[Fernando], Ascenso, J.[Joćo], Brites, C.[Catarina],
Studying the GOP Size Impact on the Performance of a Feedback Channel-Based Wyner-Ziv Video Codec,
PSIVT07(801-815).
Springer DOI Reference 0712 BibRef

Pereira, F.[Fernando],
Analysis for Video Coding: Moving It from the Encoder to the Decoder,
ICIAR08(xx-yy).
Springer DOI Reference 0806 BibRef

Ko, B.[Bonghyuck], Shim, H.J.[Hiuk Jae], Jeon, B.W.[Byeung-Woo],
Wyner-Ziv Video Coding with Side Matching for Improved Side Information,
PSIVT07(816-825).
Springer DOI Reference 0712 BibRef

Finamore, W.A.[Weiler A.], Leister, M.A.[Marcelo A.],
Lossy Lempel-Ziv Algorithm for Large Alphabet Sources and Applications to Image Compression,
ICIP96(I: 225-228).
IEEE DOI Reference See also Universal Algorithm for Sequential Data Compression, A. BibRef 9600

Chou, P.A.[Philip A.], Zeger, K.,
Universal Data Compression: An Overview,
ICIP96(17P1). BibRef 9600

Andra, K.,
A Multi-bit Binary Arithmetic Coding Technique,
ICIP00(Vol I: 928-931).
IEEE Abstract. IEEE Top Reference. 0008 BibRef

Moo, P.W.[Peter W.], Wu, X.L.[Xiao-Lin],
Resynchronization Properties of Arithmetic Coding,
ICIP99(II:545-549).
IEEE Abstract. IEEE Top Reference. BibRef 9900

Haruki, R., Horiuchi, T.,
Scalable Image Coding By Spline Approximation For Gray-Scale Image,
ICDAR97(Tu-3B) 9708 BibRef

Chapter on Image Processing, Restoration, Enhancement, Filters, Image and Video Coding continues in
Image Compression or Coding, Surveys, Evaluations and Overviews .