Authors: Grzegorz Ulacha, Ryszard Stasiński

Abstract:

In the paper an effective context based lossless coding technique is presented. Three principal and few auxiliary contexts are defined. The predictor adaptation technique is an improved CoBALP algorithm, denoted CoBALP+. Cumulated predictor error combining 8 bias estimators is calculated. It is shown experimentally that indeed, the new technique is time-effective while it outperforms the well known methods having reasonable time complexity, and is inferior only to extremely computationally complex ones.

Keywords: Adaptive prediction, context coding, image losslesscoding, prediction error bias correction.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1084240

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References:

[1] G. Deng, Symbol mapping and context filtering techniques for lossless image compression, Proceedings of IEEE 1998 International Conference on Image Processing, v.1, pp. 526-529, Chicago, USA, Oct. 1998.
[2] F. Golchin, K. K. Paliwal, A lossless image coder with context classification, adaptive prediction and adaptive entropy coding, Proceedings of IEEE International Conference on Acoustics, Speech and Signal Processing, Seattle, Washington, USA, May 1998, pp. 2545- 2548.
[3] Lih-Jen Kau, Yuan-Pei Lin, Lossless image coding using a switching predictor with run-length encodings, Proceedings of IEEE International Conference on Multimedia and Expo, June 2004, vol. 2, pp. 1155-1158.
[4] M. Marcellin, M. Gormish, A. Bilgin, M. Boliek, An Overview of JPEG- 2000, Proceedings of Data Compression Conference, Snowbird, Utah, March 2000, pp. 523-541.
[5] S. Marusic, G. Deng, Adaptive prediction for lossless image compression, Signal Processing: Image Communications, May 2002, vol. 17, pp. 363-372.
[6] I. Matsuda, N. Ozaki, Y. Umezu, S. Itoh, Lossless coding using Variable Blok-Size adaptive prediction optimized for each image, Proceedings of EUSIPCO-05, (CDROM), September 2005.
[7] B. Meyer, P. Tischer, TMWLego - An Object Oriented Image Modelling Framework, Proceedings of Data Compression Conference 2001, pp. 504.
[8] K. Sayood, Introduction to Data Compression, 2nd edition, Morgan Kaufmann Publ., 2002.
[9] T. Seemann, P. Tisher, B. Meyer, History-Based Blending of Image Sub- Predictors, Proceedings of Picture Coding Symp., Berlin, Germany, 1997, pp. 147-151.
[10] T. Strutz, Context-Based Adaptive Linear Prediction for Lossless Image Coding, 4th International ITG Conference on Source and Channel Coding, Berlin, Germany, 28-30 January, 2002, pp. 105-109.
[11] C. Topal, Ö. N. Gerek, Pdf sharpening for multichannel predictive coders, Proceedings of EUSIPCO-06 CD, Sept. 2006.
[12] G. Ulacha, R. Stasiński, A new context lossless image coding algorithm based on adaptive context arithmetic coder, Proceedings of 15th International Workshop on Systems, Signals & Image Processing - IWSSIP 2008, Bratislava, Slovak Republic 2008, pp. 45-48.
[13] G. Ulacha, R. Stasiński, New simple context-based predictive technique for lossless image compression, Proceedings of EUSIPCO-07 (CDROM), Poznań, Poland, September 2007, pp. 990-993.
[14] M. J. Weinberger, G. Seroussi, G. Sapiro, LOCO-I: A low complexity, context-based, lossless image compression algorithm. Proceedings of Data Compression Conference, March-April 1996, Snowbird, Utah, pp. 140-149.
[15] M. J. Weinberger, G. Seroussi, G. Sapiro ÔÇ×LOCO-I: Lossless Image Compression Algorithm: Principles and Standardization into JPEG-LS", IEEE Trans. on Image Processing, vol. 9, No. 8, August 2000, pp. 1309- 1324.
[16] X. Wu, N. D. Memon ÔÇ×CALIC - A Context Based Adaptive Lossless Image Coding Scheme", IEEE Trans. on Communications, May 1996, vol. 45, pp. 437-444.
[17] H. Ye, A study on lossless compression of greyscale images, PhD thesis, Department of Electronic Engineering, La Trobe University, October 2002.