Optimal Configuration of Reconfigurable Intelligent Surfaces With Arbitrary Discrete Phase Shifts
S. Mehdi Hashemi, Hai Jiang, Masoud Ardakani
Abstract
We address the reflection optimization problem for a reconfigurable intelligent surface (RIS), where the RIS elements feature a set of non-uniformly spaced discrete phase shifts. This is motivated by the actual behavior of practical RIS elements, where it is shown that a uniform phase shift assumption is not realistic. A problem is formulated to find the optimal reflection amplitudes and reflection phase shifts of the RIS elements such that the channel capacity of the target user is maximized. We first prove that in the optimal configuration, each RIS element is either turned off or operates at maximum amplitude. We then develop a method that finds the optimal reflection amplitudes and phases with complexity linear with the number of RIS elements. An interesting insight into the reflection optimization problem is also provided.