Abstract
This paper investigates the decode-and-forward (DF) full-duplex (FD) cooperative relaying system with SWIPT. Specifically, the relay node can harvest energy from the source's RF signal, and then the harvested energy is used for transferring information to the destination. Besides, we consider both direct and two-hop relaying links to transmit data from the source to the destination. In the performance analysis, we derive the exact expressions for outage probability (OP) by applying the receiver's selection combining (SC) technique. Then, the Monte Carlo simulation is performed to verify the correctness of the mathematical analysis. Finally, the simulations show that the mathematic expressions match simulation results, which authenticates the mathematical analysis.
Highlights
The explosive growth of the Internet of ings (IoT) has led to a massive amount of traffic data, which has brought a great burden on the mobile devices’ energy consumption [1,2,3,4,5]
Scavenging energy from surrounding environments such as solar, wind, water, and heat enhances the batteries’ endurance [6,7,8,9,10,11,12,13,14,15,16,17,18,19]. These methods heavily depend on uncontrollable elements such as geographic location and weather conditions, which do not guarantee a stable energy source
Motivated by the above discussions, this paper proposed and investigated the system performance analysis of a SWIPT-aided relay network in the full-duplex (FD) decodeand-forward (DF) mode with the consistency of direct link from the selection source to a destination
Summary
The explosive growth of the Internet of ings (IoT) has led to a massive amount of traffic data, which has brought a great burden on the mobile devices’ energy consumption [1,2,3,4,5]. Based on the proposed model, novel closed-form analytical expressions for the end-to-end average block error rate (BLER) are obtained. Motivated by the above discussions, this paper proposed and investigated the system performance analysis of a SWIPT-aided relay network in the full-duplex (FD) decodeand-forward (DF) mode with the consistency of direct link from the selection source to a destination. E contributions of this paper are listed as follows: We model a novel SWIPT-enabled DF relaying network with full-duplex transmission in the presence of direct link to improve the total throughput at the destination. Based on the proposed system model, we derive the exact closed-form expression of outage probability at the destination.
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