IRS Assisted Dual-Mode Relay Based Adaptive Transmission

To address the challenges posed by increased power consumption in traditional active relays and the difficulties associated with countering channel fading for Intelligent Reflecting Surfaces (IRS), we propose a dual-mode relay (DMR) capable of dynamically switching between two operational modes: active relaying and passive IRS reflection. This DMR allows its units (DMRU) to select their operational modes dynamically based on channel conditions, enabling the transmission of composite-mode signals that consist of both active relaying signal components and IRS-reflected components, thereby enhancing adaptation to the wireless environment. Furthermore, under the constraint of limited transmit power, we introduce a DMR-based Adaptive Transmission (DMRAT) method. This approach explores all possible DMR operational modes and employs the Alternating Optimization (AO) algorithm in each mode to jointly optimize the beamforming matrices of both the transmitter and the DMR, along with the reflection coefficient matrix of the IRS. Consequently, this maximizes the data transmission rate for the target communication pair. The optimal DMR mode can then be determined based on the optimized data rate for the target communication across various operational modes. Simulation results demonstrate that the proposed method significantly enhances the data transmission rate for the target communication pair.