Enhanced Index-Modulation-Aided Nonorthogonal Multiple Access via Superposition Coding Rotation

Nonorthogonal multiple access (NOMA) has been widely recognized as a promising spectral efficiency technique for the next generation of wireless communication networks due to its ability to support multiple users in the same orthogonal resource block. In response to the increasing demands for extens...

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Veröffentlicht in:	IEEE internet of things journal 2024-09, Vol.11 (17), p.27932-27943
Hauptverfasser:	Huang, Ronglan, Ji, Fei, Hu, Zeng, Wan, Dehuan, Xu, Pengcheng, Liu, Yun
Format:	Artikel
Sprache:	eng
Schlagworte:	Codes Coding Communication networks Constellation rotation Data transmission Detectors Edge computing effectiveness and reliability Efficiency index modulation (IM) Interference cancellation Maximum likelihood decoding Modulation NOMA Nonorthogonal multiple access nonorthogonal multiple access (NOMA) Numerical simulation Resource scheduling Rotation Spectral efficiency Symbols System reliability User groups Wireless communications
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creator	Huang, Ronglan Ji, Fei Hu, Zeng Wan, Dehuan Xu, Pengcheng Liu, Yun
description	Nonorthogonal multiple access (NOMA) has been widely recognized as a promising spectral efficiency technique for the next generation of wireless communication networks due to its ability to support multiple users in the same orthogonal resource block. In response to the increasing demands for extensive connectivity and high-volume data transmission, a novel index modulation (IM)-aided NOMA scheme has been conceived to improve downlink transmission by capitalizing on the flexibility provided by the constellation rotation design for superposition coding. In the proposed scheme, known as IM aided NOMA with the constellation rotation (IM-NOMA-CR), users are categorized into cell-edge group (far-user accommodated) and cell-center group (near-user accommodated) based on their channel conditions. The rotated constellation-based IM operation is exclusively applied to users in the near-user group, who receive lower power allocations compared to the far-user group, enabling them to transmit additional information while ensuring system reliability. This approach enhances spectral efficiency by activating all subcarriers (orthogonal resource blocks) to transmit information to scheduled users, in contrast to the conventional IM-NOMA scheme. Moreover, extra information can be transmitted through constellation rotation in the superposition coding process, setting it apart from traditional NOMA schemes. Subsequently, the maximum likelihood detector employing successive interference cancellation (ML-SIC) is utilized at the receiving end to decode the intended symbols for all users. Numerical simulations have been carried out to validate the efficacy of the proposed IM-NOMA-CR design, demonstrating a significant enhancement in spectral efficiency and error performance compared to existing NOMA schemes.
doi_str_mv	10.1109/JIOT.2024.3424284
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subjects	Codes Coding Communication networks Constellation rotation Data transmission Detectors Edge computing effectiveness and reliability Efficiency index modulation (IM) Interference cancellation Maximum likelihood decoding Modulation NOMA Nonorthogonal multiple access nonorthogonal multiple access (NOMA) Numerical simulation Resource scheduling Rotation Spectral efficiency Symbols System reliability User groups Wireless communications
title	Enhanced Index-Modulation-Aided Nonorthogonal Multiple Access via Superposition Coding Rotation
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