Adaptive filters for multichannel signal processing

1998 IEEE Symposium on Advances in Digital Filtering and Signal Processing. Symposium Proceedings (Cat. No.98EX185) Pub Date : 1998-06-05 DOI:10.1109/ADFSP.1998.685697

K. Plataniotis, A. Venetsanopoulos

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引用次数: 4

Abstract

The amount of research published to date indicates an increasing interest in the areas of multichannel signal processing. The availability of a wide set of multichannel information sources in application areas, such as color image processing, multispectral remote sensing imagery, biomedicine, robotics and industrial inspection have stimulated a renewed interest in developing efficient and cost effective processing techniques for multichannel signals. In this paper, fuzzy logic and adaptive learning techniques are utilized to derive new filter classes for multichannel signal processing. Using the proposed methodology, multichannel nonlinear problems are treated from a global viewpoint that readily yields and unifies previous, seemingly unrelated results. The fuzzy approach provides insight into the nature of the filtering process and the structure of the underlying nonlinear operator. The special case of color image processing is studied as an important example of multichannel signal processing. Simulation results indicate that the proposed adaptive fuzzy filters are computationally attractive and have excellent performance.

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多通道信号处理的自适应滤波器

迄今为止发表的大量研究表明，人们对多通道信号处理领域的兴趣日益浓厚。在彩色图像处理、多光谱遥感图像、生物医学、机器人和工业检测等应用领域中，广泛的多通道信息源的可用性激发了人们对开发高效和经济有效的多通道信号处理技术的新兴趣。本文利用模糊逻辑和自适应学习技术推导出用于多通道信号处理的新型滤波器类。使用所提出的方法，多通道非线性问题从一个全局的观点来处理，容易产生和统一以前，看似不相关的结果。模糊方法提供了深入了解滤波过程的性质和底层非线性算子的结构。作为多通道信号处理的一个重要实例，对彩色图像处理进行了研究。仿真结果表明，所提出的自适应模糊滤波器具有较好的计算吸引力和较好的性能。

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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1998 IEEE Symposium on Advances in Digital Filtering and Signal Processing. Symposium Proceedings (Cat. No.98EX185)

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