Reconfigurable Intelligent Surface Assisted Multiuser MISO Systems Exploiting Deep Reinforcement Learning

Recently, the reconfigurable intelligent surface (RIS), benefited from the breakthrough on the fabrication of programmable meta-material, has been speculated as one of the key enabling technologies for the future six generation (6G) wireless communication systems scaled up beyond massive multiple in...

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Bibliographic Details
Published in	IEEE journal on selected areas in communications Vol. 38; no. 8; pp. 1839 - 1850
Main Authors	Huang, Chongwen, Mo, Ronghong, Yuen, Chau
Format	Journal Article
Language	English
Published	New York IEEE 01.08.2020 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Algorithms Antenna arrays Array signal processing Beamforming beamforming matrix Computer simulation Deep learning deep reinforcement learning Machine learning Massive MIMO Metamaterials MIMO (control systems) MIMO communication MISO (control systems) MISO communication Neural networks Optimization Optimization techniques phase shift matrix Power consumption Receivers Reconfigurable intelligent surface Reconfigurable intelligent surfaces smart radio environment Wireless communication Wireless communication systems Wireless communications
Online Access	Get full text
ISSN	0733-8716 1558-0008
DOI	10.1109/JSAC.2020.3000835

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Abstract	Recently, the reconfigurable intelligent surface (RIS), benefited from the breakthrough on the fabrication of programmable meta-material, has been speculated as one of the key enabling technologies for the future six generation (6G) wireless communication systems scaled up beyond massive multiple input multiple output (Massive-MIMO) technology to achieve smart radio environments. Employed as reflecting arrays, RIS is able to assist MIMO transmissions without the need of radio frequency chains resulting in considerable reduction in power consumption. In this paper, we investigate the joint design of transmit beamforming matrix at the base station and the phase shift matrix at the RIS, by leveraging recent advances in deep reinforcement learning (DRL). We first develop a DRL based algorithm, in which the joint design is obtained through trial-and-error interactions with the environment by observing predefined rewards, in the context of continuous state and action. Unlike the most reported works utilizing the alternating optimization techniques to alternatively obtain the transmit beamforming and phase shifts, the proposed DRL based algorithm obtains the joint design simultaneously as the output of the DRL neural network. Simulation results show that the proposed algorithm is not only able to learn from the environment and gradually improve its behavior, but also obtains the comparable performance compared with two state-of-the-art benchmarks. It is also observed that, appropriate neural network parameter settings will improve significantly the performance and convergence rate of the proposed algorithm.
AbstractList	Recently, the reconfigurable intelligent surface (RIS), benefited from the breakthrough on the fabrication of programmable meta-material, has been speculated as one of the key enabling technologies for the future six generation (6G) wireless communication systems scaled up beyond massive multiple input multiple output (Massive-MIMO) technology to achieve smart radio environments. Employed as reflecting arrays, RIS is able to assist MIMO transmissions without the need of radio frequency chains resulting in considerable reduction in power consumption. In this paper, we investigate the joint design of transmit beamforming matrix at the base station and the phase shift matrix at the RIS, by leveraging recent advances in deep reinforcement learning (DRL). We first develop a DRL based algorithm, in which the joint design is obtained through trial-and-error interactions with the environment by observing predefined rewards, in the context of continuous state and action. Unlike the most reported works utilizing the alternating optimization techniques to alternatively obtain the transmit beamforming and phase shifts, the proposed DRL based algorithm obtains the joint design simultaneously as the output of the DRL neural network. Simulation results show that the proposed algorithm is not only able to learn from the environment and gradually improve its behavior, but also obtains the comparable performance compared with two state-of-the-art benchmarks. It is also observed that, appropriate neural network parameter settings will improve significantly the performance and convergence rate of the proposed algorithm.
Author	Huang, Chongwen Yuen, Chau Mo, Ronghong
Author_xml	– sequence: 1 givenname: Chongwen orcidid: 0000-0001-8398-8437 surname: Huang fullname: Huang, Chongwen email: chongwen_huang@sutd.edu.sg organization: Engineering Product Development (EPD) Pillar, Singapore University of Technology and Design, Singapore – sequence: 2 givenname: Ronghong surname: Mo fullname: Mo, Ronghong email: ronghong_mo@sutd.edu.sg organization: Engineering Product Development (EPD) Pillar, Singapore University of Technology and Design, Singapore – sequence: 3 givenname: Chau orcidid: 0000-0002-9307-2120 surname: Yuen fullname: Yuen, Chau email: yuenchau@sutd.edu.sg organization: Engineering Product Development (EPD) Pillar, Singapore University of Technology and Design, Singapore
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Snippet	Recently, the reconfigurable intelligent surface (RIS), benefited from the breakthrough on the fabrication of programmable meta-material, has been speculated...
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SubjectTerms	Algorithms Antenna arrays Array signal processing Beamforming beamforming matrix Computer simulation Deep learning deep reinforcement learning Machine learning Massive MIMO Metamaterials MIMO (control systems) MIMO communication MISO (control systems) MISO communication Neural networks Optimization Optimization techniques phase shift matrix Power consumption Receivers Reconfigurable intelligent surface Reconfigurable intelligent surfaces smart radio environment Wireless communication Wireless communication systems Wireless communications
Title	Reconfigurable Intelligent Surface Assisted Multiuser MISO Systems Exploiting Deep Reinforcement Learning
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