无线消费电子设备的多功能天线设计:一种软计算方法

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Anuradha Sonker;Anil Kumar Nayak;Tushar Goel;Amalendu Patnaik
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引用次数: 0

摘要

提出了一种基于软计算的新型设计方法,用于设计无线消费电子设备中的多功能天线。结合粒子群优化(PSO)和神经网络(NN)技术的优点,所开发的公式产生了针对特定多个频率的多频分形天线结构的设计,并处理了针对这些多个频率合适的馈电。所开发的训练神经网络的作用是消除对嵌入PSO优化回路中的电磁模拟器的需求。神经网络在粒子群优化中的参与将消除在参数优化过程中根据设计者的要求实现设定目标的命中试验方法的需要。然而,由于所使用的软计算技术的响应很快,与使用模拟器或其他数值/分析方法的设计相比,所开发的设计公式所花费的时间(秒级)要少得多。使用所开发的方法设计并测试了不同的小尺寸Sierpinski垫圈和Koch单极子。通过仿真和实验验证,对所开发方法的有效性进行了交叉检验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multifunctional Antenna Design for Wireless Consumer Electronic Devices: A Soft-Computing Approach
A soft-computing-based novel design approach is proposed for the design of multifunctional antennas to be used in wireless consumer electronic devices. With the combined utilization of the particle swarm optimization (PSO) and the merits of the neural network (NN) technique, the developed formulation produces the design of multifrequency fractal antenna structure for specific multiple frequencies and handles the suitable feeding for these multiple frequencies. The role of the developed trained NN is to remove the need for an electromagnetic simulator that is embedded in the optimization loop of the PSO. The involvement of NN in PSO would eliminate the need for a hit-trial approach during parametric optimization for achieving the set goals as per designer’s requirement. However, as the response of the used soft-computing techniques is fast, the developed design formulation takes significantly less time (the order of seconds) in comparison to the design using simulators or other numerical/analytical methods. Different small size Sierpinski gaskets and Koch monopoles are designed and tested using the developed methodology. The effectiveness of the developed approach is cross-checked with simulation and experimental verifications.
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CiteScore
3.70
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