UCA-Based OAM Non-Orthogonal Multi-Mode Multiplexing

Electromagnetic waves carrying orbital angular momentum (OAM) can improve the spectral efficiency of communication systems by multiplexing a number of OAM modes. However, since being not able to perform water-filling power allocation and adaptive modulation for each sub-channel like closed-loop mult...

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Veröffentlicht in:	IEEE Open Journal of Antennas and Propagation 2021, Vol.2, p.181-190
Hauptverfasser:	Chen, Rui, Yao, Runzhong, Long, Wen-Xuan, Moretti, Marco, Li, Jiandong
Format:	Artikel
Sprache:	eng
Schlagworte:	Bit error rate Channel capacity Mathematical analysis multi-mode multiplexing Multiplexing non-orthogonal Numerical simulation Orbital angular momentum (OAM) Spectral efficiency Transmitters uniform circular array (UCA)
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creator	Chen, Rui Yao, Runzhong Long, Wen-Xuan Moretti, Marco Li, Jiandong
description	Electromagnetic waves carrying orbital angular momentum (OAM) can improve the spectral efficiency of communication systems by multiplexing a number of OAM modes. However, since being not able to perform water-filling power allocation and adaptive modulation for each sub-channel like closed-loop multiple-input multiple-output (MIMO) systems, the traditional orthogonal multi-mode OAM multiplexing system usually has poor bit error rate (BER) performance due to the inherent large divergence angle of high-order orthogonal OAM beams. Therefore, in this article we propose a non-orthogonal OAM (NO-OAM) multi-mode multiplexing scheme based on uniform circular array (UCA), which regulates the divergence angles of all non-orthogonal OAM beams to be the same, circumventing the problem that large beam divergence of high-order orthogonal OAM modes results in low received signal-to-noise ratio (SNR) at the receive UCA with a fixed aperture. Mathematical analysis and numerical simulations show that in contrast to the existing uniform concentric circular array (UCCA) beam adjustment scheme, the proposed NO-OAM scheme has slightly better beam adjustment effect but with only one UCA. Moreover, in contrast to the traditional orthogonal OAM multi-mode transmission, the proposed NO-OAM multi-mode multiplexing scheme has asymptotically equivalent channel capacity and much lower BER.
doi_str_mv	10.1109/OJAP.2021.3051474
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Mathematical analysis and numerical simulations show that in contrast to the existing uniform concentric circular array (UCCA) beam adjustment scheme, the proposed NO-OAM scheme has slightly better beam adjustment effect but with only one UCA. 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However, since being not able to perform water-filling power allocation and adaptive modulation for each sub-channel like closed-loop multiple-input multiple-output (MIMO) systems, the traditional orthogonal multi-mode OAM multiplexing system usually has poor bit error rate (BER) performance due to the inherent large divergence angle of high-order orthogonal OAM beams. Therefore, in this article we propose a non-orthogonal OAM (NO-OAM) multi-mode multiplexing scheme based on uniform circular array (UCA), which regulates the divergence angles of all non-orthogonal OAM beams to be the same, circumventing the problem that large beam divergence of high-order orthogonal OAM modes results in low received signal-to-noise ratio (SNR) at the receive UCA with a fixed aperture. 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subjects	Bit error rate Channel capacity Mathematical analysis multi-mode multiplexing Multiplexing non-orthogonal Numerical simulation Orbital angular momentum (OAM) Spectral efficiency Transmitters uniform circular array (UCA)
title	UCA-Based OAM Non-Orthogonal Multi-Mode Multiplexing
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