Random Forest Regression for Predicting Metamaterial Antenna Parameters

Nazmia Kurniawati, Dianing Novita Nurmala Putri, Yuli Kurnia Ningsih
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引用次数: 9

Abstract

Metamaterial is an artificial substance that has unique properties such as negative refractive index and negative permittivity that do not exist naturally in the universe. Metamaterial has been extensively used in antenna applications because of its numerous advantages. In antenna applications, the Split Ring Resonator (SRR) structure in the metamaterial antenna can improve antenna performance. In this paper, we use random forest regression which is part of machine learning algorithm to predict antenna parameters, such as gain, Voltage Standing Wave Ratio (VSWR), bandwidth, and return loss. Based on prediction result, number of estimator that resulted in lowest MAE for gain is 3 while for MSE is 2. For VSWR the lowest MAE and MSE is reached when the number of estimator is 8. For bandwidth, lowest MAE is achieved when the number of estimator is 1 while for MSE is 8. Return loss reaches the lowest MAE and MSE when the number of estimator is 24.
随机森林回归预测超材料天线参数
超材料是一种具有负折射率和负介电常数等宇宙中不存在的独特性质的人造物质。超材料以其众多的优点在天线领域得到了广泛的应用。在天线应用中,超材料天线中的劈裂环谐振器(SRR)结构可以提高天线的性能。在本文中,我们使用随机森林回归作为机器学习算法的一部分来预测天线参数,如增益,电压驻波比(VSWR),带宽和回波损耗。根据预测结果,对增益最小MAE的估计数为3个,对MSE的估计数为2个。对于VSWR,当估计器个数为8时,MAE和MSE达到最低。对于带宽,当估计器个数为1时MAE最低,而MSE为8时MAE最低。当估计器个数为24时,回波损失达到最低的MAE和MSE。
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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