The Charging Characteristics of Large-Scale Electric Vehicle Group Considering Characteristics of Traffic Network

Electric vehicles, as a new generation of road transport, are primarily used for transportation. For this reason, the topological characteristics of traffic network may make great influence on the macroscopic characteristics of electric vehicle group. However, little attention is drawn to the study...

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Veröffentlicht in:	IEEE access 2020, Vol.8, p.32542-32550
Hauptverfasser:	Chen, Chongchen, Wu, Zhigang, Zhang, Yuling
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Sprache:	eng
Schlagworte:	Adaptive systems Average clustering coefficient charging power probability distribution Charging stations Clustering Electric power distribution Electric power systems electric vehicle Electric vehicle charging Electric vehicles Electrical loads multi-agent Multiagent systems Normal distribution Power distribution Road transportation Roads Spatial distribution Statistical analysis Topology Traffic flow traffic topology Transportation applications Urban areas
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description	Electric vehicles, as a new generation of road transport, are primarily used for transportation. For this reason, the topological characteristics of traffic network may make great influence on the macroscopic characteristics of electric vehicle group. However, little attention is drawn to the study in this field. Therefore, typical approach to studying the impact of traffic network topological characteristics on the charging characteristics of large-scale electric vehicle group is presented by adopting the charging power distribution as analysis indicator. In this paper, a model of complex adaptive system is constructed including the electric vehicle group, traffic network and charging stations, where the tempo-spatial distribution of charging power can be obtained via the simulation with the multi-agent technique. The charging power of regional electric vehicles is found obedient to logarithmic normal distribution after analysis, while the mathematical expectation of probability density shows obvious cyclicity. Finally, the traffic networks of various cities in comparison testify to that improving the connectivity of traffic network and increasing the average clustering coefficient can effectively reduce the effect on power system brought by the charging load of large-scale electric vehicle group.
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subjects	Adaptive systems Average clustering coefficient charging power probability distribution Charging stations Clustering Electric power distribution Electric power systems electric vehicle Electric vehicle charging Electric vehicles Electrical loads multi-agent Multiagent systems Normal distribution Power distribution Road transportation Roads Spatial distribution Statistical analysis Topology Traffic flow traffic topology Transportation applications Urban areas
title	The Charging Characteristics of Large-Scale Electric Vehicle Group Considering Characteristics of Traffic Network
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