Throughput Analysis of Power Beacon-Aided Multi-hop Relaying Networks Employing Non-orthogonal Multiple Access with Hardware Impairments

“…Xu et al [19], [20] studied the RF-EH based MHR employing the RF power beacon stations in underlay cognitive radio networks. Tin et al [21] proposed the power beacon-aided MHR scheme, where NOMA is employed to send multiple data from the source to the destination. Vo et al [22] studied the RF-EH NOMA MHR to optimize e2e secrecy performance.…”

“…The main difference between this paper and our previous work [21] can be listed as: i) this paper studies the multi-input multi-output (MIMO) scenario that employs TAS/SC; ii) the source in this paper attempts to send its data to multiple destinations while only one destination is considered in [21]; and iii) this paper does not consider the hardware impairments as in [21].…”

“…After receiving 𝑥 𝑘 ⊕ from 𝑇 𝑘−1 , 𝑇 𝑘 performs SIC to decode all the signals. Similar to [21], from (3), the instantaneous signal-to-noise ratio (SNR) obtained for decoding 𝑥 𝑛 can be written as:…”

Throughput analysis of power beacon-aided multi-hop MIMO relaying networks employing NOMA and TAS/SC

“…Xu et al [19], [20] studied the RF-EH based MHR employing the RF power beacon stations in underlay cognitive radio networks. Tin et al [21] proposed the power beacon-aided MHR scheme, where NOMA is employed to send multiple data from the source to the destination. Vo et al [22] studied the RF-EH NOMA MHR to optimize e2e secrecy performance.…”

“…The main difference between this paper and our previous work [21] can be listed as: i) this paper studies the multi-input multi-output (MIMO) scenario that employs TAS/SC; ii) the source in this paper attempts to send its data to multiple destinations while only one destination is considered in [21]; and iii) this paper does not consider the hardware impairments as in [21].…”

“…After receiving 𝑥 𝑘 ⊕ from 𝑇 𝑘−1 , 𝑇 𝑘 performs SIC to decode all the signals. Similar to [21], from (3), the instantaneous signal-to-noise ratio (SNR) obtained for decoding 𝑥 𝑛 can be written as:…”

Throughput analysis of power beacon-aided multi-hop MIMO relaying networks employing NOMA and TAS/SC

Throughput enhancement for multi-hop decode-and-forward protocol using interference cancellation with hardware imperfection

Performance of a hybrid dual-hop and multi-hop network based on NOMA