Wireless Information and Power Transfer in Full-Duplex Communication Systems

TL;DR

This paper addresses optimizing simultaneous wireless information and power transfer in full-duplex systems by designing power splitters and transmit powers, using an iterative algorithm to solve a complex non-convex problem, validated through simulations.

Contribution

It introduces an iterative algorithm for optimal design of power splitting and transmission in full-duplex SWIPT systems, enhancing sum-rate performance.

Findings

The proposed algorithm improves sum-rate in full-duplex SWIPT systems.

Numerical simulations confirm the effectiveness of the iterative solution.

Optimal power splitting balances energy harvesting and information transfer efficiently.

Abstract

This paper considers the problem of maximizing the sum-rate for simultaneous wireless information and power transfer (SWIPT) in a full-duplex bi-directional communication system subject to energy harvesting and transmit power constraints at both nodes. We investigate the optimum design of the receive power splitters and transmit powers for SWIPT in full-duplex mode. Exploiting rate-split method, an iterative algorithm is derived to solve the non-convex problem. The effectiveness of the proposed algorithm is justified through numerical simulations.