Full-duplex overlay cognitive wireless powered communication network using RF energy harvesting |
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Authors: | Rezaie Mostafa Dosaranian-Moghadam Mohamad Bakhshi Hamidreza Hassannejad-Bibalan Mohammadreza |
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Affiliation: | 1.Department of Electrical Engineering, Qazvin Branch, Islamic Azad University, Qazvin, Iran ;2.Department of Electrical Engineering, Shahed University, Tehran, Iran ;3.Department of Electrical Engineering, Imam Khomeini International University, Qazvin, Iran ; |
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Abstract: | In this paper, a novel full-duplex overlay cognitive wireless powered communication network (FD-OCWPCN) is proposed where a full-duplex (FD) hybrid-access point (H-AP) supports the full access of all battery-free secondary users (SUs). The H-AP broadcasts wireless power to empower the nearby SUs in the downlink (DL) phase while decoding the information transmitted uplink (UL) phase by the SUs, simultaneously. To overcome the self-interference (SI) phenomenon in FD-OCWPCN, the problem of maximizing the system sum-throughput with optimal UL-DL transmission/reception time and H-AP’s transmit power allocation is considered. This problem is non-convex under perfect/imperfect SI cancelation (SIC), so we employ the active interference temperature control and the gradient projection techniques to effectively reduce it into a convex problem. Closed-form expressions for the perfect/imperfect SIC cases are also derived. To assess the performance of the FD-OCWPCN, a comparison with a half-duplex OCWPCN (HD-OCWPCN) is provided. The achievable average sum-throughput for different FD/HD-OCWPCN is compared in the context of the average and peak transmit power at the H-AP, the number of SUs, path loss exponent and fairness metric. The simulation results depict the superiority of the FD-OCWPCN over the HD-OCWPCN for the perfect SIC and the effective imperfect SIC. |
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