Digital RIS (DRIS): The Future of Digital Beam Management in RIS-Assisted OWC Systems

TL;DR

This paper introduces digital reconfigurable intelligent surfaces (DRIS) for optical wireless communication systems, leveraging digital signal processing and metamaterials to enhance beam management and system performance.

Contribution

It proposes the novel concept of digital RIS (DRIS) in OWC, integrating DSP techniques and metamaterials, which has not been explored before.

Findings

Conceptual framework for DRIS in OWC systems

Application of DSP methods to optical RIS

Design example demonstrating potential benefits

Abstract

Reconfigurable intelligent surfaces (RIS) have been recently introduced to optical wireless communication (OWC) networks to resolve skip areas and improve the signal-to-noise ratio at the user's end. In OWC networks, RIS are based on mirrors or metasurfaces. Metasurfaces have evolved significantly over the last few years. As a result, coding, digital, programmable, and information metamaterials have been developed. The advantage of these materials is that they can enable digital signal processing (DSP) techniques. For the first time, this paper proposes the use of digital RIS (DRIS) in OWC systems. We discuss the concept of DRIS and the application of DSP methods to the physical material. In addition, we examine metamaterials for optical DRIS with liquid crystals serving as the front row material. Finally, we present a design example and discuss future research directions.