An efficient and effective texture classification approach using a new notion in wavelet theory

Proceedings of 13th International Conference on Pattern Recognition Pub Date : 1996-08-25 DOI:10.1109/ICPR.1996.547190

Jian-feng Liu, J. C. Lee

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引用次数: 12

Abstract

This paper presents a novel multiresolution approach to the classification of textures using wavelets. The approach uses an overcomplete wavelet decomposition, called wavelet-frames, which yields the descriptions of both translation invariance and stability. In order to adapt it to the quasi-periodic properly of textures, we first detect the channels containing dominant information, and then zoom it into these frequency channels for further decomposition. For classification efficiency, we develop a progressive texture classification algorithm, in which the classification process terminates once a suitably chosen discrimination criterion is met. Experiments show that with a minimum number of wavelet frame decompositions and iterations, our proposed approach achieves a 100% correct classification rate on all the texture types tested. It outperforms many of the existing approaches in terms of classification excellence and computational efficiency, and hence appears attractive for real-time applications involving texture-based video/image classification.

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基于小波理论的纹理分类方法

提出了一种基于小波的多分辨率纹理分类方法。该方法使用了一种称为小波帧的过完备小波分解，它产生了平移不变性和稳定性的描述。为了使其适应纹理的准周期特性，我们首先检测含有优势信息的通道，然后将其放大到这些频率通道中进行进一步分解。为了提高分类效率，我们开发了一种渐进式纹理分类算法，在该算法中，一旦选择合适的识别准则，分类过程就会终止。实验表明，在最小的小波帧分解和迭代次数下，我们的方法对所有被测试的纹理类型都达到了100%的正确率。它在分类性能和计算效率方面优于许多现有方法，因此对于涉及基于纹理的视频/图像分类的实时应用具有吸引力。

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 13th International Conference on Pattern Recognition

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