DocumentCode
3604496
Title
Distributed and Optimal Resource Allocation for Power Beacon-Assisted Wireless-Powered Communications
Author
Yuanye Ma ; He Chen ; Zihuai Lin ; Yonghui Li ; Vucetic, Branka
Author_Institution
Sch. of Electr. & Inf. Eng., Univ. of Sydney, Sydney, NSW, Australia
Volume
63
Issue
10
fYear
2015
Firstpage
3569
Lastpage
3583
Abstract
In this paper, we investigate optimal resource allocation in a power beacon-assisted wireless-powered communication network (PB-WPCN), which consists of a set of hybrid access point (AP)-source pairs and a power beacon (PB). Each source, which has no embedded power supply, first harvests energy from its associated AP and/or the PB in the downlink (DL) and then uses the harvested energy to transmit information to its AP in the uplink (UL). We consider both cooperative and non-cooperative scenarios based on whether the PB is cooperative with the APs or not. For the cooperative scenario, we formulate a social welfare maximization problem to maximize the weighted sum-throughput of all AP-source pairs, which is subsequently solved by a water-filling based distributed algorithm. In the non-cooperative scenario, all the APs and the PB are assumed to be rational and self-interested such that incentives from each AP are needed for the PB to provide wireless charging service. We then formulate an auction game and propose an auction based distributed algorithm by considering the PB as the auctioneer and the APs as the bidders. Finally, numerical results are performed to validate the convergence of both the proposed algorithms and demonstrate the impacts of various system parameters.
Keywords
convergence; cooperative communication; distributed algorithms; energy harvesting; radiofrequency power transmission; resource allocation; AP-source pair; PB-WPCN; convergence; embedded power supply; energy harvesting; hybrid access point-source pair; incentive; optimal resource allocation; power beacon-assisted wireless-powered communication; social welfare maximization problem; waterfilling based distributed algorithm; wireless charging service; Distributed algorithms; Energy exchange; Information processing; Resource management; Silicon; Wireless communication; Wireless sensor networks; Power beacon-assisted wireless-powered communication network (PB-WPCN); auction theory; resource allocation; wireless energy transfer (WET);
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/TCOMM.2015.2468215
Filename
7194776
Link To Document