Intelligent Reflecting Surface Design for MIMO System by Maximizing Sum-Path-Gains
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Intelligent reflecting surface (IRS) serves as an emerging paradigm to enhance the wireless transmission with a low hardware cost and a reduced power consumption. In this letter, we investigate the IRS-assisted downlink multi-input multi-output (MIMO) system, where an Alice-Bob pair wishes to communicate with the assist of IRS. Our goal is to maximize the spectral efficiency by designing the active beamformer at Alice and the passive reflecting phase shifters (PSs) at the IRS, which turns out to be an intractable mixed integer non-convex optimization problem. To tackle this problem, we propose an efficient algorithm to obtain an effective solution. Specifically, the PSs at the IRS are optimized to maximize the sum of gains of different paths. Such a criterion is also referred to as the maximizing the sum of gains (MSG) principle. Then, an alternating direction method of multipliers (ADMM) algorithm is developed to solve the MSG-based optimization problem. With the obtained PSs, the beamformer at Alice is obtained by classic singular value decomposition (SVD) and water-filling (WF) solutions.
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