An investigation of wavelet-based image coding using an entropy-constrained quantization framework

Proceedings of IEEE Data Compression Conference (DCC'94) Pub Date : 1994-03-29 DOI:10.1109/DCC.1994.305942

K. Ramchandran, M. Orchard

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引用次数: 62

Abstract

Wavelet image decompositions generate a tree-structured set of coefficients, providing an hierarchical data-structure for representing images. Several recently proposed image compression algorithms have focused on new ways for exploiting dependencies between this hierarchy of wavelet coefficients. This paper presents a new framework for understanding the efficiency of one such algorithm as a simplified attempt to a global entropy-constrained image quantizer. The principle insight offered by the new framework is that improved performance is achieved by more accurately characterizing the joint probabilities of arbitrary sets of wavelet coefficients. The specific algorithm described is designed around one conveniently structured collection of such sets. The efficiency of hierarchical wavelet coding algorithms derives from their success at identifying and exploiting dependencies between coefficients in the hierarchical structure. The second part of the paper presents an empirical study of the distribution of high-band wavelet coefficients, the band responsible for most of the performance improvements of the new algorithms.<>

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基于熵约束的量化框架的小波图像编码研究

小波图像分解生成一组树状结构的系数，为表示图像提供了一种分层的数据结构。最近提出的几个图像压缩算法集中在利用小波系数层次之间的依赖关系的新方法上。本文提出了一种新的框架来理解这种算法的效率，作为对全局熵约束图像量化器的简化尝试。新框架提供的主要见解是，通过更准确地表征任意小波系数集的联合概率来实现性能的改进。所描述的具体算法是围绕这样的集合的一个方便的结构化集合设计的。分层小波编码算法的效率源于它们在识别和利用分层结构中系数之间的依赖关系方面的成功。论文的第二部分对高频带小波系数的分布进行了实证研究，这一频带是新算法性能改进的主要原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of IEEE Data Compression Conference (DCC'94)

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