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面向新型电力系统的综合能源系统攻防博弈策略研究OA

Research on integrated energy system attack-defense game strategy for novel power system

中文摘要英文摘要

随着新型电力系统的发展,高比例新能源的加入要求信息层和物理层高度融合,信息物理协同攻击将对新型电力系统可能造成更大危害,导致系统产生严重的经济损失.为了确保新型电力系统稳定供能,文章面向新型电力系统,分析电-气耦合型综合能源信息物理系统耦合机制及信息层和物理层的相互影响;结合博弈论和兰德风险评估模型,提出一种考虑信息层和物理层联合遭受攻击的三层动态攻防博弈模型.文中将该攻防博弈模型转化为混合整数线性规划问题,以负荷损失为度量指标,有效地确定了在不同元件上需分配的资源;在所构建的IEEE-30 节点电网和 11 节点气网组成的电-气耦合型系统上进行算例分析,验证了所提出模型和方法的有效性.

The integration between the information layer and the physical layer has become increasingly pronounced with the advancement of novel power system.Coordinated information-physical attacks pose significant threats to no-vel power system,resulting in substantial economic losses.To guarantee the secure and dependable functioning of the novel power system,this paper firstly analyzes the coupled mechanism of electro-gas coupling comprehensive energy information-physical systems and interaction between the information layer and the physical layer.By in-tegrating game theory and the RAND risk assessment model,a three-layer dynamic game model considering joint at-tacks on the information layer and the physical layer is proposed.The game model is transformed into a mixed inte-ger linear programming problem,using load loss as the metric to effectively determine the allocation of resources across different components.The validity of the proposed model and method is verified by an example analysis on the electric-gas coupling system composed of IEEE-30-node power grid and 11-node gas network.

沈超;李双岑;古丹妍;洪芦诚

国网江苏省电力有限公司无锡供电分公司,江苏 无锡 214000国网江苏省电力有限公司无锡供电分公司,江苏 无锡 214000东南大学,南京 210018东南大学,南京 210018

信息技术与安全科学

电-气耦合系统新型电力系统脆弱环节博弈论

electro-gas coupling systemnovel power systemvulnerable linkgame theory

《电测与仪表》 2026 (1)

56-63,8

国网江苏省电力有限公司科技资助项目(J2022130)

10.19753/j.issn1001-1390.2026.01.006

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