FARIS: Fluid-Active-RIS

TL;DR

This paper introduces FARIS, a novel fluid-active reconfigurable intelligent surface that combines fluid-based port repositioning with active amplification, significantly enhancing 6G network performance through joint optimization of hardware and signal processing.

Contribution

The paper presents a comprehensive circuit-level model and an optimization framework for FARIS, demonstrating its superiority over conventional RIS in terms of rate performance and hardware efficiency.

Findings

FARIS outperforms conventional RIS in diverse environments.

FARIS achieves higher rates with fewer active elements.

The optimization framework effectively enhances system performance.

Abstract

In this paper, we introduce a new wireless paradigm termed fluid-active reconfigurable intelligent surface (FARIS) that combines fluid-based port repositioning with per-element active amplification to enhance the performance of 6G networks. To realistically characterize the hardware operation, we first develop a circuit-level abstraction of the FARIS architecture and establish a practical power consumption model that captures both the logical control/switching power of candidate ports and the direct current (DC) bias power required for active reflection. Based on this model, we establish the FARIS signal model and formulate a corresponding ergodic-rate maximization problem that jointly optimizes the active amplification-reflection vector and the discrete selection of fluid-active elements under practical hardware constraints. The problem is addressed via an alternating optimization (AO) framework, which progressively improves the rate. Complexity and convergence analyses that follow furnish deeper insight into the algorithmic operation and performance enhancement. Numerical results confirm that the proposed FARIS with the AO framework consistently outperforms conventional baselines, delivering higher rates across diverse environments, often even when using fewer active elements or a smaller physical aperture.