Managing Interference and Leveraging Secondary Reflections Amongst Multiple IRSs

TL;DR

This paper explores optimizing multiple IRSs in a multi-user MIMO system to enhance communication rates by managing interference and secondary reflections, demonstrating significant benefits with proper control.

Contribution

It introduces a joint optimization framework for phase-shifts across multiple IRSs and beamformers, highlighting the importance of managing secondary reflections for improved network performance.

Findings

Proper management of secondary reflections increases user rates.

Increasing IRSs benefits performance when interference is well-controlled.

Improper reflection management can reduce throughput with more IRSs.

Abstract

Intelligent reflecting surface (IRS) has recently been emerging as an enabler for smart radio environment in which passive antenna arrays can be used to actively tailor/control the radio propagation. With multiple IRSs being launched to support various group of users, it is critical to jointly optimize the phase-shifts of all IRSs to mitigate the interference as well as to leverage the secondary reflections amongst IRSs. This work considers the uplink of multiple users that are grouped and supported by multiple IRSs to a multi-antenna base station. Each IRS with multiple controllable phase-shift elements is intended to serve a group of near-by users. We first formulate the minimum achievable rate maximization problem by jointly optimizing phase-shifts of elements from all IRSs and the received beamformers at the MIMO base station. The problem turns out to be non-convex. We then derive its solution using the alternating optimization mechanism. Our simulations show that by properly managing interference and leveraging the secondary reflections amongst IRSs, there is a great benefit of deploying more IRSs to support different groups of users to achieve a higher rate per user. In contrast, without properly managing the secondary reflections, increasing the number of IRSs can adversely impact the network throughput, especially for higher transmit power.