Modified artificial bee colony optimisation based FIR filter design with experimental validation using field-programmable gate array

IET Signal Process. Pub Date : 2016-06-01 DOI:10.1049/iet-spr.2015.0214

Atul Kumar Dwivedi, Subhojit Ghosh, N. Londhe

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引用次数: 17

Abstract

Optimisation based design of finite impulse response (FIR) filters has been an active area of research for quite some time. The various algorithms proposed for FIR filter design aim at meeting a set of desired specifications in the frequency domain. Evolutionary algorithms have been found to be very effective for FIR filter design because of the non-linear, non-differentiable and non-convex nature of the associated optimisation problem. The present work proposes two modified versions of a recently developed evolutionary technique i.e. artificial bee colony (ABC) algorithm for design of FIR filters. The applicability of the proposed approach has been evaluated by comparing its response with conventional reported filter design techniques. The proposed variants of ABC are found to outperform other non-convex algorithms in achieving the desired specifications. In addition to the simulation results, the designed filters have been implemented in hardware using Xilinx-xc7vx330t-3ffg1157 (Virtex-7) field programmable gate array. The hardware implementation allows validation of the proposed techniques for practical filtering applications by considering real time operation parameters.

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基于现场可编程门阵列的改进人工蜂群优化FIR滤波器设计与实验验证

基于优化设计的有限脉冲响应(FIR)滤波器一直是一个活跃的研究领域相当长一段时间。FIR滤波器设计的各种算法都是为了在频域满足一组期望的规范。进化算法已被发现是非常有效的FIR滤波器设计，因为相关的优化问题的非线性，不可微和非凸性质。本工作提出了两个改进版本的最新发展的进化技术，即人工蜂群(ABC)算法的设计FIR滤波器。通过将其响应与传统报道的滤波器设计技术进行比较，评估了所提出方法的适用性。在实现期望的规范方面，发现ABC的拟议变体优于其他非凸算法。除了仿真结果外，所设计的滤波器已使用Xilinx-xc7vx330t-3ffg1157 (Virtex-7)现场可编程门阵列在硬件上实现。硬件实现允许通过考虑实时操作参数来验证所提出的技术在实际过滤应用中的应用。

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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IET Signal Process.

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