A Compact Design of W-Band High-Pass Waveguide Filter Using Genetic Algorithms and Full-Wave Finite Element Analysis

An-Shyi LIU; Ruey-Beei WU; Yi-Cheng LIN

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A Compact Design of W-Band High-Pass Waveguide Filter Using Genetic Algorithms and Full-Wave Finite Element Analysis

机译：利用遗传算法和全波有限元分析的W波段高通波导滤波器的紧凑设计

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摘要

This paper proposes an efficient two-phase optimization approach for a compact W-band double-plane stepped rectangular waveguide filter design, which combines genetic algorithms (GAs) with the simplified transmission-line model and full-wave analysis. Being more efficient and robust than the gradient-based method, the approach can lead to a compact waveguide filter design. Numerical results show that the resultant waveguide filter design with 4 sections (total length 19.6 mm) is sufficient to meet the design goal and provides comparable performance to that with 8 sections (total length 35.6 mm) by the Chebyshev synthesis approach. Based on the present approach, nineteen compact high-pass waveguide filters have been implemented and measured at the W-band with satisfactory performance.

机译：本文提出了一种高效的两阶段优化方法，用于紧凑的W波段双平面步进矩形波导滤波器设计，该方法将遗传算法（GA）与简化的传输线模型和全波分析相结合。与基于梯度的方法相比，该方法更加有效和健壮，可以实现紧凑的波导滤波器设计。数值结果表明，通过切比雪夫合成方法，具有4个部分（总长度为19.6 mm）的波导波导滤波器设计足以满足设计目标，并具有与具有8个部分（总长度为35.6 mm）的波导滤波器相当的性能。基于本方法，已经在W波段实现了19个紧凑型高通波导滤波器并对其进行了测量，并具有令人满意的性能。

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来源
《IEICE Transactions on Electronics》 |2005年第8期|p.1764-1771|共8页
作者
An-Shyi LIU; Ruey-Beei WU; Yi-Cheng LIN;
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作者单位

Department of Electrical Engineering and Graduate Institute of Communication Engineering, National Taiwan University, Taipei, Taiwan 106, R.O.C.;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
rectangular waveguide filter; chebyshev synthesis; genetic algorithms; constrained quasi-newton method; lamarckian evolution; full-wave finite element analysis;

机译：矩形波导滤波器;契比雪夫合成;遗传算法;约束拟牛顿法;拉马克演化;全波有限元分析;

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A Compact Design of W-Band High-Pass Waveguide Filter Using Genetic Algorithms and Full-Wave Finite Element Analysis

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