Power-Domain Non-Orthogonal Multiple Access (NOMA) in 5G Systems: Potentials and Challenges
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In this paper, the authors comprehensively survey the recent progress of NOMA in 5G systems, reviewing the state-of-the-art capacity analysis, power allocation strategies, user fairness, and user-pairing schemes in NOMAs.Abstract:Â
Non-orthogonal multiple access (NOMA) is one of the promising radio access techniques for performance enhancement in next-generation cellular communications. Compared to orthogonal frequency division multiple access (OFDMA), which is a well-known high-capacity orthogonal multiple access (OMA) technique, NOMA offers a set of desirable benefits, including greater spectrum efficiency. There are different types of NOMA techniques, including power-domain and code-domain. This paper primarily focuses on power-domain NOMA that utilizes superposition coding (SC) at the transmitter and successive interference cancellation (SIC) at the receiver. Various researchers have demonstrated that NOMA can be used effectively to meet both network-level and user-experienced data rate requirements of fifth-generation (5G) technologies. From that perspective, this paper comprehensively surveys the recent progress of NOMA in 5G systems, reviewing the state-of-the-art capacity analysis, power allocation strategies, user fairness, and user-pairing schemes in NOMA. In addition, this paper discusses how NOMA performs when it is integrated with various proven wireless communications techniques, such as cooperative communications, multiple input multiple output (MIMO), beamforming, space time coding, and network coding, among others. Furthermore, this paper discusses several important issues on NOMA implementation and provides some avenues for future research.read more
Citations
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Non-orthogonal multiple access without channel state information for similar channel conditions
TL;DR: A downlink non-orthogonal multiple access with QPSK input constellations based on virtual channel optimisation is presented to address the similar channel conditions scenario and aims to construct a uniquely decodable sum constellation by maximising the minimum Euclidean distance among the points of the superposed constellation.
Proceedings ArticleDOI
PDMAC-SIC: Priority-based Distributed Low Delay MAC with Successive Interference Cancellation for Industrial Wireless Networks
TL;DR: This work is the first priority-based distributed MAC protocol that employs SIC (PDMAC-SIC) to provide low delay and accommodate different types of traffic for industrial wireless networks.
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Outage performance analysis of millimeter-wave NOMA transmission for line of sight and non-line of sight propagations based on different clustering schemes
TL;DR: A new clustering scheme in a millimeter-wave (mmWave) non-orthogonal multiple access (NOMA) transmission to reduce the system overhead for massive connectivity, which depends on the distance between machine type communication (MTC) device and the base station (BS).
Posted ContentDOI
Efficient NOMA Design without Channel Phase Information using Amplitude-Coherent Detection
Arafat Al-Dweik,Youssef Iraqi,Ki-Hong Park,Mohammad A. Al-Jarrah,Emad Alsusa,Mohamed-Slim Alouini +5 more
TL;DR: This paper presents the design and bit error rate (BER) analysis of a phase-independent non-orthogonal multiple access (NOMA) system and shows that the SIC detector is just an alternative approach to realize the ML detector, and hence, both detectors provide the same BER performance.
Proceedings ArticleDOI
Non-orthogonal Multiple Access in SWIPT Enabled Cooperative D2D Network
TL;DR: A stepwise iterative algorithm is proposed to obtain the suboptimal solution to the problem and numerical simulations show that the proposed algorithm can approximate the optimal solution with low computational cost in a certain error range.
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