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:
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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Dual Relay Selection for Cooperative NOMA With Distributed Space Time Coding
TL;DR: Numerical results show that the proposed two-stage DRS schemes not only yield better outage performance than the existing single relay selection schemes without sacrificing spectral efficiency, but can also achieve full diversity gain.
Proceedings ArticleDOI
Energy-Efficient Resource Allocation in Uplink NOMA Systems with Deep Reinforcement Learning
TL;DR: A two-step deep reinforcement learning (DRL) based algorithm is proposed to solve the joint subcarrier assignment and power allocation problem in an uplink multi-user NOMA system to maximize the energy efficiency (EE) while ensuring the quality-of-service (QoS) of all users.
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Underlaid Spectrum Sharing for Cell-Free Massive MIMO-NOMA
TL;DR: The results reveal that NOMA based underlay CF massive MIMO-NOMA can exploit the scarce spectrum bands more efficiently than its counterpart orthogonal multiple-access (OMA).
Journal ArticleDOI
Closed-Form BER Expression for Fourier and Wavelet Transform-Based Pulse-Shaped Data in Downlink NOMA
TL;DR: A closed-form expression of the bit error rate (BER) for FFT-NOMA as well as wavelet-based NOMA (WNOMA) systems is presented and the theoretical and simulation BER results show that WnOMA outperforms F FT-NomA in additive white Gaussian noise.
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NOMA-Based Resource Allocation and Mobility Enhancement Framework for IoT in Next Generation Cellular Networks
Raouf Abozariba,Muhammad Kamran Naeem,Mohammad Patwary,Mir Seyedebrahimi,Peter Bull,Adel Aneiba +5 more
TL;DR: A framework to efficiently quantify and supply radio resources to the IoT devices by developing intelligent systems and shows a substantial reduction in the number of sub-carriers required when compared with conventional OMA and the intelligent clustering is scalable and adaptable to the cellular environment.
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