This paper analyzes the performance of multiple reconfigurable intelligent surfaces (RISs)-aided networks. The paper also provides some optimization results on the number of reflecting elements on RISs and the optimal placement of RISs. We first derive accurate closed-form approximations for RIS channels' distributions assuming independent non-identically distributed (i.ni.d.) Nakagami-\emph{m} fading environment. Then, the approximate expressions for outage probability (OP) and average symbol error probability are derived in closed-form. Furthermore, to get more insights into the system performance, we derive the asymptotic OP at the high signal-to-noise ratio regime and provide closed-form expressions for the system diversity order and coding gain. Finally, the accuracy of our theoretical analysis is validated through Monte-Carlo simulations. The obtained results show that the considered RIS scenario can provide a diversity order of 2aK, where a is a function of the Nakagami fading parameter m and the number of meta-surface elements N, and K is the number of RISs.
@article{arxiv.2206.05524,
title = {Multiple RISs-Aided Networks: Performance Analysis and Optimization},
author = {Mahmoud Aldababsa and Anas M. Salhab and Ali Arshad Nasir and Monjed H. Samuh and Daniel Benevides da Costa},
journal= {arXiv preprint arXiv:2206.05524},
year = {2022}
}