We study simultaneous wireless information and power transfer (SWIPT) in multihop wireless cooperative networks, where the\nmultihop capability that denotes the largest number of transmission hops is investigated. By utilizing the broadcast nature of\nmultihop wireless networks, we first propose a cooperative forwarding power (CFP) scheme. In CFP scheme, the multiple relays\nand receiver have distinctly different tasks. Specifically, multiple relays close to the transmitter harvest power from the transmitter\nfirst and then cooperatively forward the power (not the information) towards the receiver. The receiver receives the information\n(not the power) from the transmitter first, and then it harvests the power from the relays and is taken as the transmitter of the next\nhop. Furthermore, for performance comparison, we suggest two schemes: cooperative forwarding information and power (CFIP)\nand direct receiving information and power (DFIP). Also, we construct an analysis model to investigate the multihop capabilities\nof CFP, CFIP, and DFIP schemes under the given targeted throughput requirement. Finally, simulation results validate the analysis\nmodel and show that the multihop capability of CFP is better than CFIP and DFIP, and for improving the multihop capabilities, it\nis best effective to increase the average number of relay nodes in cooperative set
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