Analysis of the Impact of UCA Element’s Radiation Pattern on the OAM Communication Performance

2022 IEEE 2nd International Conference on Computer Communication and Artificial Intelligence (CCAI) Pub Date : 2022-05-06 DOI:10.1109/CCAI55564.2022.9807776

Chengxiang Liu, Wei Yu, Bin Zhou, Yu Zhao

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Abstract

Orbital Angular Momentum (OAM) based wireless communications can greatly increase the channel capacity due to its mode degree of freedom (DOF) besides time and frequency. Currently, OAM generation based on Uniform Circular Arrays (UCAs) draws much attention because it can flexibly perform OAM mode multiplexing. Channel models of UCA based OAM communications in the previous researches were built without consideration of radiation patterns of antenna elements in the UCA. In order to further explore the impact of UCA element’s radiation pattern on the OAM communication performance, in this paper, we consider the radiation pattern of antenna elements in both the transmit and receive UCAs and reconstruct the channel model of UCA based OAM communications in the line of sight (LOS) and coaxial scenarios. For the antenna element’s radiation pattern function $G(\theta,\phi)$, we theoretically prove that only when $G(\theta,\phi)$ is symmetric in the dimension of $\phi$ can the orthogonality among each OAM mode be maintained. The simulations indicate that the mode isolation, the channel capacity and the bit error rate (BER) performance all decline sharply when $G(\theta,\phi)$ is not symmetric in the dimension of $\phi$. Our research provides useful insights for the designing of antenna elements for CA based OAM communications.

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UCA单元辐射方向图对OAM通信性能的影响分析

基于轨道角动量(OAM)的无线通信由于其除了时间和频率之外的模式自由度(DOF)，可以极大地增加信道容量。目前，基于均匀圆阵列(UCAs)的OAM生成因其能够灵活地实现OAM模式复用而备受关注。在以往的研究中，基于UCA的OAM通信信道模型没有考虑UCA中天线单元的辐射方向图。为了进一步探讨UCA单元的辐射方向图对OAM通信性能的影响，本文考虑了发射和接收UCA中天线单元的辐射方向图，重构了视距和同轴场景下基于UCA的OAM通信信道模型。对于天线单元的辐射方向图函数$G(\theta,\phi)$，我们从理论上证明了只有当$G(\theta,\phi)$在$\phi$的维数上对称时，才能保持各OAM模式之间的正交性。仿真结果表明，当$G(\theta,\phi)$在$\phi$的维数上不对称时，系统的模式隔离度、信道容量和误码率性能都急剧下降。我们的研究为基于CA的OAM通信天线元件的设计提供了有益的见解。

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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2022 IEEE 2nd International Conference on Computer Communication and Artificial Intelligence (CCAI)

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