遗传算法在三波段u槽微带天线设计中的应用

2020 17th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON) Pub Date : 2020-06-01 DOI:10.1109/ECTI-CON49241.2020.9158066

Teerapong Orankitanun, Sudhibhum Yaowiwat

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引用次数: 6

摘要

本研究采用遗传算法结合矩量法(MoM)软件对结构复杂的微带贴片天线进行优化，使其具有三波段特性。该设计包括一个带有三个不对称u型槽的探针馈电空气基板单层贴片天线。将三个尺寸合适的u型槽放置在贴片上，形成三条所需的带。利用遗传算法得到了设计问题的最优解。讨论了在此工作中所采用的优化策略和步骤。通过对天线工作的仿真，验证了优化方法的可靠性。该天线提供1.935 ~ 2.027 GHz、2.59 ~ 2.705 GHz和3.106 ~ 3.289 GHz三个频段，每个频段中心频率的最大增益分别为8.34、8.75和7.56 dBi。该天线适用于WCDMA和WiMAX应用。

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Application of Genetic Algorithm in Tri-band U-slot Microstrip Antenna Design

In this research, a genetic algorithm combined with a method of moments (MoM) software were utilized to optimize a microstrip patch antenna with a complicated structure to achieve tri-band characteristic. The design consisted of a probe-fed air-substrate single-layer patch antenna loaded with three asymmetrical U-slots. When the three U-slots with appropriate dimensions were suitably placed on the patch, three desired bands formed. The optimal solution to the design problem was obtained by using the genetic algorithm. The optimization strategy and procedure used in this work are discussed. The simulation of the antenna operations was performed to verify the reliability of this optimization method. The proposed antenna provided three bands at 1.935 − 2.027 GHz, 2.59 − 2.705 GHz and 3.106 − 3.289 GHz with the maximum gains of 8.34, 8.75 and 7.56 dBi respectively, at the center frequencies of each band. The proposed antenna is applicable for WCDMA and WiMAX applications.

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来源期刊

2020 17th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON)

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