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Efficient NOMA Design without Channel Phase Information using Amplitude-Coherent Detection

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posted on 28.04.2020 by Arafat Al-Dweik, Youssef Iraqi, Mohammad Al-Jarrah, E Alsusa, Mohamed-Slim Alouini, Ki Hong Park
This paper presents the design and bit error rate (BER) analysis of a phase-independent non-orthogonal
multiple access (NOMA) system. The proposed NOMA system can utilize amplitude-coherent detection
(ACD) which requires only the channel amplitude for equalization purposes. In what follows, three
different designs for realizing the detection of the proposed NOMA are investigated. One is based on the
maximum likelihood (ML) principle, while the other two are based on successive interference cancellation
(SIC). Closed-form expressions for the BER of all detectors are derived and compared with the BER of
the coherent ML detector. The obtained results, which are corroborated by simulations, demonstrate that,
in most scenarios, the BER is dominated by multiuser interference rather than the absence of the channel
phase information. Consequently, the BER using ML and ACD are comparable for various cases of
interest. The paper also shows that the SIC detector is just an alternative approach to realize the ML
detector, and hence, both detectors provide the same BER performance.


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Submitting Author's Institution

Khalifa University

Submitting Author's Country

United Arab Emirates