FollowSpot: Enhancing Wireless Communications via Movable Ceiling-Mounted Metasurfaces

Abstract

This paper studies the optimal placement of ceiling-mounted metasurfaces (MTSs) to help focus the wireless signal beam onto the target receiver, as inspired by the theatre spotlight. We assume that a total of M MTSs are deployed, and that there are L possible positions for each MTS. The resulting signal-to-noise (SNR) maximization problem is difficult to tackle directly because of the coupling between the placement decisions of the different MTSs. Mathematically, we are faced with a nonlinear discrete optimization problem with LM possible solutions. A remarkable result shown in this paper is that the above challenging problem can be efficiently solved within O(ML2(ML)) time. There are two key steps in developing the proposed algorithm. First, we successfully decouple the placement variables of different MTSs by introducing a continuous auxiliary variable μ; the discrete primal variables are now easy to optimize when μ is held fixed, but the optimization problem of μ is nonconvex. Second, we show that the optimization of continuous μ can be recast into a discrete optimization problem with only LM possible solutions, so the optimal μ can now be readily obtained. Numerical results show that the proposed algorithm can not only guarantee a global optimum but also reach the optimal solution efficiently.