Outage and ergodic capacity analysis of a full-duplex energy-harvesting cooperative non-orthogonal multiple access network

This paper considers a dual-hop cooperative relay-based communication with uplink (UL) and downlink (DL) non-orthogonal multiple access (NOMA), where communication between sources to destinations takes place parallelly in the same frequency band over a Rayleigh fading channels. The energy harvesting (EH)-based full-duplex (FD) relay helps in forwarding the message from the source node to the destination node via superposition coding, thus calling it a multiple sources full-duplex energy-harvesting cooperative relay NOMA (MS-FD-EH-CR-NOMA) system. Early works focus on EH from one source node or a dedicated power station. In this article, the communication between sources and destinations occurs in two slots where first slot deals with energy harvesting while in second slot information transmission occurs. We studied the effect of imperfect successive interference cancellation (ipSIC) and residual self-interference (RSI) in decoding the message at the relay and the destinations. We derived the closed-form expressions for the outage probability of each pair and the system outage probability of the MS-FD-EH-CR-NOMA system. Next, we derive the closed-form expressions of ergodic capacity under Rayleigh distributed fading channels. Further, numerical results are validated by its simulation results using Monte Carlo simulations in MATLAB. The results obtained through this work are a good step towards designing multiple source-destination communication using NOMA and EH relay. This work studied the full-duplex energy harvesting-based relay of two source-destination pairs. Closed-form expressions of outage probability and ergodic capacity are analyzed in this manuscript. image