Minimum entropy transform using Gabor wavelets for image compression

Proceedings 11th International Conference on Image Analysis and Processing Pub Date : 2001-09-26 DOI:10.1109/ICIAP.2001.957047

S. Fischer, G. Cristóbal

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引用次数: 19

Abstract

Most image compression methods are based on the use of the DCT or (bi-)orthogonal wavelets. However, in many cases improved performance in terms of visual quality can be expected if we consider a human visual system based model. The aim of this paper is to explore the potential of image compression techniques based on the use of nonorthogonal filters such as Gabor wavelets. The compression scheme is performed by a linear wavelet transform with filters similar to 2D Gabor functions through a quantizer based on measurements of the contrast sensitivity function of the human visual system (HVS). The compression performance is evaluated by entropy and error measures. Because of the non-orthogonality property, different image decompositions will have the same reconstruction. Thus, between all possible decompositions, one can be interested specifically in a minimum entropy wavelet transform that minimizes the information redundancy. This process can be considered as a nonlinear Gabor-wavelet transform that can be employed for compression applications. The overall optimization procedure has been implemented as an iterative algorithm producing a significant reduction in the information redundancy.

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最小熵变换使用Gabor小波图像压缩

大多数图像压缩方法是基于DCT或(双)正交小波的使用。然而，在许多情况下，如果我们考虑基于人类视觉系统的模型，则可以期望在视觉质量方面提高性能。本文的目的是探索基于非正交滤波器(如Gabor小波)的图像压缩技术的潜力。压缩方案由线性小波变换和类似于二维Gabor函数的滤波器通过基于人类视觉系统(HVS)对比敏感度函数测量的量化器来执行。通过熵和误差度量来评价压缩性能。由于图像的非正交性，不同的图像分解会产生相同的重构。因此，在所有可能的分解之间，人们可以特别对最小化信息冗余的最小熵小波变换感兴趣。这个过程可以看作是一个非线性的gabor -小波变换，可以用于压缩应用。整体优化过程已被实现为一个迭代算法，产生显著减少信息冗余。

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 11th International Conference on Image Analysis and Processing

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