主席 / Chair:
王玉翠，Yucui Wang, 华北电力大学（保定）—讲师
共同主席 / Co-Chairs:
张明泽，Mingze Zhang, 哈尔滨理工大学—副教授
吴昊，Hao Wu, 天津大学—助理研究员

随着全球气候变暖趋势持续，世界面临极端灾害事件风险不断增加。特别是在新型电力系统背景下，可再生能源发电比例的增加加剧了系统的脆弱性。此外，新型电力系统转变为高度互联的信息物理系统，极大地依赖于通信网络。信息化程度的提高不仅增强了系统的实时感知和动态控制能力，也加剧了遭受恶意网络攻击的风险。在极端事件下，新型电力系统的安全稳定运行受到严重威胁。因此，研究新型电力系统的韧性提升技术至关重要，这对于确保极端条件下的持续供电至关重要。

With global warming trend continuing, the world is facing increasing the risk of extreme disaster events. Especially in the context of new power system, the increase in the share of renewable energy generation augments the vulnerability of the system. Moreover, new power systems transforms into highly interconnected cyber-physical systems that are greatly dependent on communication networks. The increase in informatization not only enhances the system's capabilities for real-time perception and dynamic control but also intensifies the risk of exposure to malicious cyberattacks. The safe and stable operation of the new power system is significantly threatened under extreme events. Therefore, it is essential to investigate technologies for enhancing the resilience of the new power system, as they are crucial for ensuring the continuous supply of electricity during extreme conditions.

• 应对不同类型极端事件的新兴技术与技术（如自然灾害、网络攻击等）/ Emerging Techniques and Technologies to Cope with Different Types of Extreme Events, e.g., natural disasters, cyber-attacks, etc.
• 电力系统韧性量化指标与模型 / Metrics and Models to Quantify Power System Resilience
• 韧性电力系统架构 / Architecture of resilient power systems
• 电力与能源系统的韧性控制 / Resilient Control for Power and Energy Systems
• 关键基础设施状态监测 / Condition Monitoring of Critical Infrastructure for Power and Energy Systems
• 极端事件对电力系统影响的仿真与分析 / Simulation and Analysis of the Impacts of Extreme Events on Power Systems
• 大数据与人工智能在电力系统韧性中的应用 / Big Data and Artificial Intelligence Applications in Power System Resilience
• 多能源系统的基础设施增强 / Infrastructure Enhancement for Multi-energy Systems
• 信息物理电力与能源系统的韧性 / Resilience on Cyber-Physical Power and Energy Systems
• 电力与能源系统韧性优化方法 / Optimization Methods in Power and Energy System Resilience
• 能源政策与电力系统韧性的工业经验 / Energy Policy and Industrial Experience on Power and Energy System Resilience
• 极端事件后的快速服务恢复与基础设施重建 / Rapid Service Restoration and Infrastructure Recovery After Extreme Events
• 面向韧性的电力系统规划、运行、控制与保护 / Resilience-oriented Planning, Operation, Control, and Protection of Power Systems
• 利用微电网、网络化微电网和其他新兴智能电网组件增强韧性 / Utilization of Microgrids, Networked Microgrids and Other Emerging Smart Grid Components for Resilience
• 极端事件前、中、后电力系统态势感知增强 / Enhancement Situational Awareness of Power Systems Before, During, and After Extreme Events
• 相互依赖基础设施对极端事件的建模、仿真与分析 / Modeling, Simulation and Analysis of Interdependent Infrastructures Against Extreme Events