A system for managing electric vehicles and charging infrastructure in high demand conditions. An example system includes a cloud-based policy management component configured to identify an affected area, estimate charging requirements in the area during a traffic event, and deploy mitigation policies to electric vehicles and charging stations in the area. Example response actions corresponding to a mitigation strategy deployed to a charging station include preparing charging and cooling devices to meet an estimated charging demand, charging a stationary battery to mitigate an estimated power demand peak corresponding to the estimated charging demand, and charging the inventory of replaceable battery packs to meet an estimated battery replacement demand corresponding to the estimated charging demand. Example responsive actions corresponding to mitigation strategies deployed to individual electric vehicles enable the vehicles to be optimally matched to the charging stations.
一种用于在高需求状况下管理电动车辆和充电基础设施的系统。示例系统包括基于云的策略管理部件,该策略管理部件被配置成识别受影响的区域、估计交通事件期间该区域中的充电需求、并向该区域中的电动车辆和充电站部署缓解策略。对应于部署到充电站的缓解策略的示例响应动作包括准备充电和冷却设备以满足估计充电需求,对固定蓄电池进行充电以便缓解对应于估计充电需求的估计功率需求高峰,以及对库存的可更换电池组进行充电以满足对应于估计充电需求的估计电池更换需求。对应于部署到单独电动车辆的缓解策略的示例响应动作使得车辆能够与充电站最佳匹配。
Automated management of electric vehicles and charging infrastructure in high demand conditions
高需求状况下电动车辆和充电基础设施的自动化管理
2024-08-02
Patent
Electronic Resource
Chinese
IPC: | B60L PROPULSION OF ELECTRICALLY-PROPELLED VEHICLES , Antrieb von elektrisch angetriebenen Fahrzeugen |
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