Efficient Design Approaches for Sharp Pseudo-Quadrature Mirror Filter banks using Hybrid Evolutionary Algorithms

2020 IEEE 15th International Conference on Industrial and Information Systems (ICIIS) Pub Date : 2020-11-26 DOI:10.1109/ICIIS51140.2020.9342684

S. Kalathil, S. Urooj, S. Hitam

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Abstract

Extremely efficient filter banks with satisfactory performances and low implementation intricacy are inevitable tools in multirate signal processing. This paper presents, computationally efficient design approaches for pseudo quadrature mirror filter banks with thin transition bandwidth. The prototype filter is developed by employing frequency response masking (FRM). The filters of the FRM filter are designed using Parks McClellan algorithm and weighted constrained least square approximation, which leads to exceptionally frequency selective filters. To reduce the implementation complexity, the coefficients are represented using canonic signed digit representation. This can degrade the characteristics of the filter bank. Hence evolutionary algorithms are utilized to upgrade the performance. In this paper, the different modified evolutionary algorithms are appropriately chosen to develop hybrid evolutionary algorithms. Improved performances in the discrete space and low implementation intricacy are obtained using hybrid evolutionary algorithms.

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基于混合进化算法的锐利伪正交镜滤波器组的高效设计方法

高效、性能好、实现复杂度低的滤波器组是多速率信号处理中不可缺少的工具。本文提出了一种计算效率高的具有薄过渡带宽的伪正交镜像滤波器组的设计方法。采用频率响应掩蔽(FRM)技术研制了原型滤波器。FRM滤波器的滤波器采用Parks McClellan算法和加权约束最小二乘近似进行设计，使滤波器具有特殊的频率选择性。为了降低实现的复杂性，系数使用标准符号数表示。这会降低滤波器组的特性。因此，采用进化算法来提升性能。在本文中，适当选择不同的改进进化算法来开发混合进化算法。混合进化算法提高了离散空间的性能，降低了算法的实现复杂度。

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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2020 IEEE 15th International Conference on Industrial and Information Systems (ICIIS)

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