A neural network for context-based arithmetic coding in lossless image compression

G. A. Triantafyllidis; M. G. Strintzis

A neural network for context-based arithmetic coding in lossless image compression

G. A. Triantafyllidis^*, M. G. Strintzis

^*Corresponding author for this work

Research output: Contribution to book/anthology/report/conference proceeding › Book chapter › Research › peer-review

Abstract

Significant progress has recently been made in lossless image compression using discrete wavelet transforms. The overall performance of these schemes may be further improved by properly designing efficient entropy coders. In this paper a new technique is introduced for the implementation of context-based adaptive arithmetic entropy coding. This technique is based on the prediction of the value of the current transform coefficient, using a neural network, in order to achieve appropriate context selection for arithmetic coding. Experimental results illustrate and evaluate the performance of the proposed technique.

Original language	English
Title of host publication	Advances in Neural Networks and Applications
Number of pages	4
Publisher	WSEAS Press
Publication date	2001
Pages	34-37
ISBN (Print)	9608052262
Publication status	Published - 2001

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abstract = "Significant progress has recently been made in lossless image compression using discrete wavelet transforms. The overall performance of these schemes may be further improved by properly designing efficient entropy coders. In this paper a new technique is introduced for the implementation of context-based adaptive arithmetic entropy coding. This technique is based on the prediction of the value of the current transform coefficient, using a neural network, in order to achieve appropriate context selection for arithmetic coding. Experimental results illustrate and evaluate the performance of the proposed technique.",

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A neural network for context-based arithmetic coding in lossless image compression

Abstract

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