On the price of being selfish in large populations of plug-in electric vehicles

2015 54th IEEE Conference on Decision and Control (CDC) Pub Date : 2015-12-15 DOI:10.1109/CDC.2015.7403250

Marina González Vayá, Sergio Grammatico, G. Andersson, J. Lygeros

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引用次数: 18

Abstract

We consider the problem of optimally scheduling the flexible electricity demand of a fleet of plug-in electric vehicles (PEVs). More specifically, we analyze the solutions of the following charging optimization problems: the welfare-optimal problem, where the overall system cost is minimized; the fleet-optimal problem, where the charging cost of the fleet as a whole is minimized by a central agent, that is the PEV aggregator; the selfish-optimal problem, where the noncooperative PEVs aim at minimizing their individual charging cost. For a homogenous PEV fleet and a simplified problem setup, we show that the solutions of the three different approaches correspond to different valley-filling results. A main insight is that, as the population of PEVs grows, the selfish-optimal solution converges to the welfare-optimal solution. On the other hand, we show that the centralized fleet-optimal solution of the PEV aggregation can be recovered via decentralized selfish-optimal solutions with respect to an appropriate price signal as the population size grows. Finally, we demonstrate our technical results on a realistic PEV fleet case study.

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在大量插电式电动汽车中自私的代价

研究了插电式电动汽车柔性电力需求的最优调度问题。更具体地说，我们分析了以下收费优化问题的解决方案:福利最优问题，即系统总成本最小;车队最优问题，其中车队作为一个整体的充电成本最小化的中央代理，即PEV聚合器;自私自利最优问题，其中非合作电动汽车的目标是使其个体充电成本最小化。对于同质PEV车队和简化的问题设置，我们证明了三种不同方法的解对应于不同的山谷填充结果。一个主要的观点是，随着pev数量的增长，自私的最优解收敛于福利的最优解。另一方面，我们表明，随着人口规模的增长，PEV聚集的中心化车队最优解可以通过相对于适当的价格信号的去中心化自私最优解来恢复。最后，我们在一个实际的PEV车队案例研究中展示了我们的技术成果。

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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2015 54th IEEE Conference on Decision and Control (CDC)

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