Rate Maximization for Lightwave Power Transfer-Enabled Cooperative Half/Full-Duplex UOWC Systems

“…In Reference 13 a dual‐hop SLIPT UOWC system was investigated and BER was minimized by choosing the optimal TS parameter; however fading is not considered. In Reference 15, authors investigate a dual hop full‐duplex (FD) and half‐duplex (HD) setup where they optimize the instantaneous time‐splitting parameter such that the uplink information rate is maximized. In Reference 14, instantaneous achievable rate maximization with SLIPT based full‐duplex cooperative UOWC NOMA setup was considered and effect of transmitter‐receiver misalignment was also investigated.…”

“…Furthermore, multi-hop UOWC and mixed RF-UOWC setups are also studied in the literature as they extend the communication coverage and improves overall system performance. [10][11][12][13][14][15] In Reference 10, authors considered a dual-hop UOWC system and determine optimal relay placement to minimize the bit error rate (BER) and extend the results to multihop. However, they consider only path loss and ignore the effect of turbulence and they do not consider SLIPT at the relay.…”

Energy‐efficient UOWC‐RF systems with SLIPT

“…In Reference 13 a dual‐hop SLIPT UOWC system was investigated and BER was minimized by choosing the optimal TS parameter; however fading is not considered. In Reference 15, authors investigate a dual hop full‐duplex (FD) and half‐duplex (HD) setup where they optimize the instantaneous time‐splitting parameter such that the uplink information rate is maximized. In Reference 14, instantaneous achievable rate maximization with SLIPT based full‐duplex cooperative UOWC NOMA setup was considered and effect of transmitter‐receiver misalignment was also investigated.…”

“…Furthermore, multi-hop UOWC and mixed RF-UOWC setups are also studied in the literature as they extend the communication coverage and improves overall system performance. [10][11][12][13][14][15] In Reference 10, authors considered a dual-hop UOWC system and determine optimal relay placement to minimize the bit error rate (BER) and extend the results to multihop. However, they consider only path loss and ignore the effect of turbulence and they do not consider SLIPT at the relay.…”

Energy‐efficient UOWC‐RF systems with SLIPT