Full-Duplex Wireless-Powered Communication Network With Energy Causality
Xin Kang,Chin Keong Ho,Sumei Sun +2 more
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In this paper, a wireless communication network with a full-duplex hybrid energy and information access point and a set of wireless users with energy harvesting capabilities is considered, where the causal dependence of each user's harvesting time on the transmission time of earlier users is modeled by assuming that energy harvested in the future cannot be used for the current transmission.Abstract:Â
In this paper, we consider a wireless communication network with a full-duplex hybrid energy and information access point and a set of wireless users with energy harvesting capabilities. The hybrid access point (HAP) implements full-duplex through two antennas: one for broadcasting wireless energy to users in the downlink and the other for simultaneously receiving information from the users via time division multiple access (TDMA) in the uplink. Each user can continuously harvest wireless power from the HAP until it transmits, i.e., the energy causality constraint is modeled by assuming that energy harvested in the future cannot be used for the current transmission. This leads to the causal dependence of each user's harvesting time on the transmission time of earlier users, e.g., the second user scheduled to transmit can harvest more energy if the first user has longer transmission time. Under this setup, we investigate the sum-throughput maximization (STM) problem and the total-time minimization (TTM) problem for the proposed full-duplex wireless-powered communication network. For the STM problem, the optimal solution is obtained as a closed-form expression, which can be computed with linear complexity. For the TTM problem, by exploiting the properties of the coupled constraints, we propose a two-step algorithm to obtain an optimal solution. Then, low-complexity suboptimal solutions are proposed for each problem by exploiting the characteristics of the optimal solutions. Finally, simulation studies on the effect of user scheduling show that different scheduling strategies should be adopted for STM and TTM.read more
Citations
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Wireless Networks With RF Energy Harvesting: A Contemporary Survey
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Simultaneous Wireless Information and Power Transfer (SWIPT): Recent Advances and Future Challenges
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Harvest-Then-Cooperate: Wireless-Powered Cooperative Communications
TL;DR: This paper proposes a harvest-then-cooperate (HTC) protocol, in which the source and relay harvest energy from the AP in the downlink and work cooperatively in the uplink for the source's information transmission.
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