Non-linear energy harvesting based power splitting relaying in full-duplex AF and DF relaying networks: system performance analysis

Abstract

Wireless power transfer is considered as a novel solution for energy harvesting in wireless communication networks. In this paper, the system performance of the non-linear energy harvesting based power splitting relaying in the full-duplex relaying sensor network is investigated. We considered the system model network with one source, one destination, and one relay node in both the amplify-and-forward and decode-and-forward modes. The closed-form expressions of the system outage (OP) are analysed and derived for verifying system performance. Then, the correctness of the OP closed-form expression is verified by using the Monte Carlo simulation. Furthermore, the influence of the primary system parameters on the system OP is suggested and investigated. The research results indicated that the simulation curves and the analytical curves overlapped, verifying the correctness of the analytical expressions.