Intelligent Reflecting Surface-Assisted Multiple Access With User Pairing: NOMA or OMA?

The integration of intelligent reflecting surface (IRS) to multiple access networks is a cost-effective solution for boosting spectrum/energy efficiency and enlarging network coverage/connections. However, due to the new capability of IRS in reconfiguring the wireless propagation channels, it is fundamentally unknown which multiple access scheme is superior in the IRS-assisted wireless network. In this letter, we pursue a theoretical performance comparison between non-orthogonal multiple access (NOMA) and orthogonal multiple access (OMA) in the IRS-assisted downlink communication, for which the transmit power minimization problems are formulated under the discrete unit-modulus reflection constraint on each IRS element. We analyze the minimum transmit powers required by different multiple access schemes and compare them numerically, which turn out to not fully comply with the stereotyped superiority of NOMA over OMA in conventional systems without IRS. Moreover, to avoid the exponential complexity of the brute-force search for the optimal discrete IRS phase shifts, we propose a low-complexity solution to achieve near-optimal performance.

[1]  N. Al-Dhahir,et al.  Exploiting Intelligent Reflecting Surfaces in NOMA Networks: Joint Beamforming Optimization , 2019, IEEE Transactions on Wireless Communications.

[2]  Jiaru Lin,et al.  Exploiting Intelligent Reflecting Surfaces in Multi-Antenna Aided NOMA Systems. , 2019, 1910.13636.

[3]  Jiayin Qin,et al.  Joint Beamforming Design in Multi-Cluster MISO NOMA Intelligent Reflecting Surface-Aided Downlink Communication Networks , 2019, ArXiv.

[4]  Rui Zhang,et al.  Intelligent Reflecting Surface-Enhanced OFDM: Channel Estimation and Reflection Optimization , 2019, IEEE Wireless Communications Letters.

[5]  Zhiguo Ding,et al.  A Simple Design of IRS-NOMA Transmission , 2019, IEEE Communications Letters.

[6]  Ying-Chang Liang,et al.  Intelligent Reflecting Surface Assisted Non-Orthogonal Multiple Access , 2019, 2020 IEEE Wireless Communications and Networking Conference (WCNC).

[7]  Shuowen Zhang,et al.  Intelligent Reflecting Surface Meets OFDM: Protocol Design and Rate Maximization , 2019, IEEE Transactions on Communications.

[8]  Qingqing Wu,et al.  Beamforming Optimization for Wireless Network Aided by Intelligent Reflecting Surface With Discrete Phase Shifts , 2019, IEEE Transactions on Communications.

[9]  Rui Zhang,et al.  Towards Smart and Reconfigurable Environment: Intelligent Reflecting Surface Aided Wireless Network , 2019, IEEE Communications Magazine.

[10]  Mohamed-Slim Alouini,et al.  Smart Radio Environments Empowered by AI Reconfigurable Meta-Surfaces: An Idea Whose Time Has Come , 2019, ArXiv.

[11]  Qingqing Wu,et al.  Intelligent Reflecting Surface Enhanced Wireless Network via Joint Active and Passive Beamforming , 2018, IEEE Transactions on Wireless Communications.