The invention relates to the technical field of electric vehicle charging safety, in particular to a zero-trust-based charging pile safety method, which comprises the following steps of S1, automatically identifying an electric vehicle accessed to a charging pile and a user identity by using biological identification and vehicle identification technologies; s2, based on the user identity and the historical behavior mode identified in the S1, implementing a dynamic security policy, including authority management and access control; and S3, using the dynamic safety strategy in the S2 to adjust a key area of monitoring, and monitoring the charging data of the electric vehicle in real time. According to the invention, through implementation of a zero-trust-based security policy, real-time monitoring and dynamic response are carried out by using a machine learning technology, and data security and system maintainability are ensured, so that the security of the charging pile is significantly improved, and the adaptability to emerging security threats is enhanced; and a safer and more reliable charging environment is provided for an electric vehicle user.
本发明涉及电动汽车充电安全技术领域,具体涉及一种基于零信任的充电桩安全方法,包括以下步骤:S1:通过使用生物识别和车辆识别技术,自动识别接入充电桩的电动汽车和用户身份;S2:基于S1中识别的用户身份和历史行为模式,实施动态安全策略,包括权限管理和访问控制;S3:使用S2中的动态安全策略调整监控的重点区域,并对电动汽车的充电数据进行实时监控。本发明,通过实施基于零信任的安全策略、利用机器学习技术进行实时监控和动态响应,以及确保数据安全和系统可维护性,显著提高了充电桩的安全性,增强了对新兴安全威胁的适应能力,为电动汽车用户提供了更加安全和可靠的充电环境。
Charging pile safety method based on zero trust
一种基于零信任的充电桩安全方法
2024-05-28
Patent
Electronic Resource
Chinese
IPC: | B60L PROPULSION OF ELECTRICALLY-PROPELLED VEHICLES , Antrieb von elektrisch angetriebenen Fahrzeugen |