A mutual coupling model for MIMO systems

M. K. Ozdemir, H. Arslan, E. Arvas
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引用次数: 16

Abstract

Wireless communication systems employing multielement antennas (MEAs) are affected by mutual coupling. Accurate and simple models of mutual coupling are essential for better system analysis. In a MEA, mutual coupling depends on the antenna element separation, geometry of array and antenna elements, location of antenna elements in the array, frequency, substrate thickness and constant, near-field scatterers, and direction of arrival (DOA) of the incoming wave. Except near-field scatterers and DOA, the rest of the parameters are fixed for a given MEA system. Since the feeding network for a MIMO system is fixed and most of the mutual coupling is due to surface waves, DOA dependency can be removed for a MIMO mutual coupling model. In this paper, a previously proposed model for mutual coupling is modified to be applicable to MIMO systems. The effect of near-field scatterers on the mutual coupling is specifically investigated to validate the model. Commercially available EM simulators are utilized for this purpose. Once the effect of near-field scatterers is characterized, correlation properties between antenna elements in a MEA can be obtained more accurately and correlation estimation algorithms can be developed accordingly.
MIMO系统的相互耦合模型
采用多单元天线(mea)的无线通信系统受到互耦的影响。准确和简单的相互耦合模型对于更好的系统分析是必不可少的。在MEA中,相互耦合取决于天线单元的间距、阵列和天线单元的几何形状、天线单元在阵列中的位置、频率、衬底厚度和常数、近场散射体以及入射波的到达方向(DOA)。对于给定的MEA系统,除近场散射和DOA外,其余参数都是固定的。由于MIMO系统的馈电网络是固定的,而且互耦主要是由表面波引起的,因此对于MIMO互耦模型可以去除DOA依赖性。本文对先前提出的相互耦合模型进行了改进,使其适用于MIMO系统。具体研究了近场散射体对相互耦合的影响,验证了模型的有效性。商用电磁模拟器用于此目的。对近场散射体的影响进行表征,可以更准确地获得MEA中天线单元之间的相关特性,并据此开发相关估计算法。
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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