Controllable Local Propagation Environment to Maximize the Multiplexing Capability of Massive MIMO Systems

The capability of controlling and modifying wireless propagation channels is one of the prerogatives of beyond-5G systems. In this paper, we propose the use of a controllable local propagation environment surrounding the terminals, and analyze its positive effect on the multiplexing capability of massive MIMO systems. In particular, we focus on using a few switched passive elements surrounding each terminal. In this way, the modification of the propagation environment is not realized by means of a single structure, as in reconfigurable intelligent surfaces (RIS), but is achieved by the cooperative work of all the terminals. By employing numerical simulations, we show that the proposed system outperforms its non-reconfigurable counterpart in terms of the number of contemporary connected users. Moreover, the optimized system enables a substantial increase in the minimum received power by the terminals, thus guaranteeing superior channel fairness.

Automated summary

This paper proposes the use of a controllable local propagation environment to enhance the capability of wireless propagation channels in beyond-5G systems. The authors analyze its positive effect on the multiplexing capability of massive MIMO systems and show through numerical simulations that the proposed system outperforms its non-reconfigurable counterpart in terms of the number of contemporary connected users. Furthermore, the optimized system ensures higher channel fairness by substantially increasing the minimum received power by the terminals.