Analysis of nonlinear microwave circuits by particle swarm algorithm

K. C. Lee; C. W. Huang; Y. H. Chen

doi:10.1163/156939307783239474

Analysis of nonlinear microwave circuits by particle swarm algorithm

K. C. Lee, C. W. Huang, Y. H. Chen

系統及船舶機電工程學系

研究成果: Article › 同行評審

6 引文斯高帕斯（Scopus）

摘要

In this paper, the particle swarm algorithm is applied to the analysis of nonlinear microwave circuits. It should be emphasized that the particle swarm algorithm of this study is utilized for analyzing nonlinear microwave circuits, but not for optimization. The problem of analyzing a nonlinear microwave circuit was successfully transformed into the minimization of a scalar fitness function. This scalar fitness function is then minimized by particle swarm algorithm. Numerical simulation shows that the results calculated by this study are consistent with those calculated by the harmonic balance technique. Our analysis is very efficient and straightforward. In addition, our analysis imposes no limitation on the nonlinearity of microwave circuits. Therefore, this study can be applied to the analysis of many other nonlinear problems in electromagnetics.

原文	English
頁（從 - 到）	1353-1365
頁數	13
期刊	Journal of Electromagnetic Waves and Applications
卷	21
發行號	10
DOIs	https://doi.org/10.1163/156939307783239474
出版狀態	Published - 2007 9月 1

All Science Journal Classification (ASJC) codes

電子、光磁材料
物理與天文學 (全部)
電氣與電子工程

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abstract = "In this paper, the particle swarm algorithm is applied to the analysis of nonlinear microwave circuits. It should be emphasized that the particle swarm algorithm of this study is utilized for analyzing nonlinear microwave circuits, but not for optimization. The problem of analyzing a nonlinear microwave circuit was successfully transformed into the minimization of a scalar fitness function. This scalar fitness function is then minimized by particle swarm algorithm. Numerical simulation shows that the results calculated by this study are consistent with those calculated by the harmonic balance technique. Our analysis is very efficient and straightforward. In addition, our analysis imposes no limitation on the nonlinearity of microwave circuits. Therefore, this study can be applied to the analysis of many other nonlinear problems in electromagnetics.",

author = "Lee, {K. C.} and Huang, {C. W.} and Chen, {Y. H.}",

note = "Funding Information: The work in this paper was supported by the China Motor Corporation, Yang-Mei, Taoyuan, Taiwan, and by the National Science Council, Taiwan, under Grant NSC 95-2221-E-006-497. The authors would like to express their sincere gratitude to National Center for High-performance Computing, Taiwan, for supporting the computing hardware and software.",

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AU - Huang, C. W.

AU - Chen, Y. H.

N1 - Funding Information: The work in this paper was supported by the China Motor Corporation, Yang-Mei, Taoyuan, Taiwan, and by the National Science Council, Taiwan, under Grant NSC 95-2221-E-006-497. The authors would like to express their sincere gratitude to National Center for High-performance Computing, Taiwan, for supporting the computing hardware and software.

PY - 2007/9/1

Y1 - 2007/9/1

N2 - In this paper, the particle swarm algorithm is applied to the analysis of nonlinear microwave circuits. It should be emphasized that the particle swarm algorithm of this study is utilized for analyzing nonlinear microwave circuits, but not for optimization. The problem of analyzing a nonlinear microwave circuit was successfully transformed into the minimization of a scalar fitness function. This scalar fitness function is then minimized by particle swarm algorithm. Numerical simulation shows that the results calculated by this study are consistent with those calculated by the harmonic balance technique. Our analysis is very efficient and straightforward. In addition, our analysis imposes no limitation on the nonlinearity of microwave circuits. Therefore, this study can be applied to the analysis of many other nonlinear problems in electromagnetics.

AB - In this paper, the particle swarm algorithm is applied to the analysis of nonlinear microwave circuits. It should be emphasized that the particle swarm algorithm of this study is utilized for analyzing nonlinear microwave circuits, but not for optimization. The problem of analyzing a nonlinear microwave circuit was successfully transformed into the minimization of a scalar fitness function. This scalar fitness function is then minimized by particle swarm algorithm. Numerical simulation shows that the results calculated by this study are consistent with those calculated by the harmonic balance technique. Our analysis is very efficient and straightforward. In addition, our analysis imposes no limitation on the nonlinearity of microwave circuits. Therefore, this study can be applied to the analysis of many other nonlinear problems in electromagnetics.

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Analysis of nonlinear microwave circuits by particle swarm algorithm

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