摘要
当前电网调度自动化系统仍面临多层网络架构安全风险、实时数据交互中的防护难题及异构系统集成带来的安全隐患等问题。基于此,从纵深防御架构设计、数据传输加固措施和智能化安全防护集成三个方面入手,以增强系统的安全防护能力。通过设计多层次的纵深防御架构,可以有效应对网络架构中的安全风险;加强数据传输的加密与认证技术,提高实时交互的安全性;集成智能化安全防护技术与应急响应机制,有助于优化安全策略,确保电网调度系统的安全性与稳定性。通过这些措施,电网调度自动化系统将能更好地应对新形势下的安全挑战,保障电网的持续稳定运行并提升其智能化水平。
The current power grid dispatch automation system still faces security risks in multi-layer network architecture,protection challenges in real-time data exchange,and security risks brought by heterogeneous system integration.Based on this,we will enhance the security protection capability of the system from three aspects:defense in depth architecture design,data transmission reinforcement measures,and intelligent security protection integration.By designing a multi-level defense in depth architecture,security risks in network architecture can be effectively addressed;Strengthen encryption and authentication technologies for data transmission to enhance the security of real-time interactions;Integrating intelligent security protection technology and emergency response mechanisms helps optimize security strategies and ensure the safety and stability of the power grid dispatch system.Through these measures,the power grid dispatch automation system will be able to better respond to security challenges in the new situation,ensure the continuous and stable operation of the power grid,and enhance its intelligence level.
作者
邵美才
黄金
杜晓瑜
黄铃
许骁楠
SHAO Meicai;HUANG Jin;DU Xiaoyu;HUANG Ling;XU Xiaonan(State Grid Zhejiang Electric Power Co.,Ltd.Dongyang Power Supply Company,Jinhua 322100,China)
出处
《电工技术》
2025年第S1期328-330,共3页
Electric Engineering
关键词
电网调度
自动化系统
安全防护技术
power grid dispatch
automation system
safety protection technology
