Performance Analysis of Multihop Full-Duplex NOMA Systems with Imperfect Interference Cancellation and Near-Field Path-Loss

Abstract: Outage probability (OP) and potential throughput (PT) of multihop full-duplex (FD) nonorthogonal multiple access (NOMA) systems are addressed in the present paper. More precisely, two metrics are derived in the closed-form expressions under the impact of both imperfect successive interference cancellation (SIC) and imperfect self-interference cancellation. Moreover, to model short transmission distance from the transmit and receive antennae at relays, the near-field path-loss is taken into consideration. Addit… Show more

“…By shortening the transmission distance, one can improve reliability while reducing transmit power. Adopting the decode-and-forward (DF) protocol also helps eliminate the adverse effects of background noise [1,2]. To further boost system performance, multi-hop cluster-based wireless networks can be considered, where several relay nodes are employed for each immediate hop instead of a single relay [3].…”

On the Performance of the Relay Selection in Multi-hop Cluster-based Wireless Networks with Multiple Eavesdroppers Under Equally Correlated Rayleigh Fading

“…By shortening the transmission distance, one can improve reliability while reducing transmit power. Adopting the decode-and-forward (DF) protocol also helps eliminate the adverse effects of background noise [1,2]. To further boost system performance, multi-hop cluster-based wireless networks can be considered, where several relay nodes are employed for each immediate hop instead of a single relay [3].…”

On the Performance of the Relay Selection in Multi-hop Cluster-based Wireless Networks with Multiple Eavesdroppers Under Equally Correlated Rayleigh Fading

Performance Enhancement for Multi-hop Short Packet Communication Networks with Amplify-and-Forward Based Hop-by-Hop Cooperative Transmission

On the security and reliability performance of SWIPT-enabled full-duplex relaying in the non-orthogonal multiple access networks