Admission control and power allocation in wireless power charging networks

2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) Pub Date : 2017-10-01 DOI:10.1109/PIMRC.2017.8292579

Ali Bayat, S. Aïssa

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引用次数: 4

Abstract

We analyze a wireless power charging network to find the best users' admission policy and power allocation by the wireless power charger (WPC). The objective of the WPC is to maximize its utility while keeping the users' satisfaction up to their required level. This optimum strategy depends on the users' bids and on the WPC's knowledge about the users' requests and the network parameters. Here, the network is modeled by an M/M/N/N queue. The competition of users is modeled using game theory, and the game model is embedded in a continuous-time Markov process model. If a user is admitted by the WPC, the latter broadcasts its new budgeted allocation, after which the users compete for the power in a non-cooperative game by broadcasting their bids. Knowing other bids, users renew and then broadcast their own bids until convergence to the Nash Equilibrium strategy. When a new user places an admission request, the WPC — desiring to maximize its profit with regard to the current users' utilities — decides to whether admit or reject the request by solving a constrained non-linear optimization problem. The performance of the proposed admission and power charging policy is analyzed.

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无线充电网络中的准入控制与功率分配

通过对无线充电网络进行分析，找出无线充电充电器的最佳用户准入策略和功率分配。WPC的目标是最大化其效用，同时保持用户满意度达到所需水平。这种最优策略取决于用户的出价和WPC对用户请求和网络参数的了解。这里，网络是通过M/M/N/N队列建模的。利用博弈论对用户竞争进行建模，并将博弈模型嵌入到连续时间马尔可夫过程模型中。如果一个用户被WPC接纳，后者会广播它的新预算分配，之后用户通过广播他们的出价在非合作博弈中竞争电力。知道其他出价，用户更新，然后广播自己的出价，直到收敛到纳什均衡策略。当一个新用户提出准入请求时，WPC希望通过解决一个约束非线性优化问题来决定是否接受或拒绝该请求，从而使当前用户的效用最大化。分析了所提出的准入和充电策略的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)

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