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2023-06-09
Wang, Bo, Zhang, Zhixiong, Wang, Jingyi, Guo, Chuangxin, Hao, Jie.  2022.  Resistance Strategy of Power Cyber-Physical System under Large-Scale and Complex Faults. 2022 6th International Conference on Green Energy and Applications (ICGEA). :254—258.
In recent years, with the occurrence of climate change and various extreme events, the research on the resistance of physical information systems to large-scale complex faults is of great significance. Propose a power information system to deal with complex faults in extreme weather, establish an anti-interference framework, construct a regional anti-interference strategy based on regional load output matching and topological connectivity, and propose branch active power adjustment methods to reduce disasters. In order to resist the risk of system instability caused by overrun of branch power and phase disconnection, the improved IEEE33 node test system simulation shows that this strategy can effectively reduce the harm of large-scale and complex faults.
2023-05-19
Guo, Yihao, Guo, Chuangxin, Yang, Jie.  2022.  A Resource Allocation Method for Attacks on Power Systems Under Extreme Weather. 2022 IEEE/IAS Industrial and Commercial Power System Asia (I&CPS Asia). :165—169.
This paper addresses the allocation method of offensive resources for man-made attacks on power systems considering extreme weather conditions, which can help the defender identify the most vulnerable components to protect in this adverse situation. The problem is formulated as an attacker-defender model. The attacker at the upper level intends to maximize the expected damage considering all possible line failure scenarios. These scenarios are characterized by the combinations of failed transmission lines under extreme weather. Once the disruption is detected, the defender at the lower level alters the generation and consumption in the power grid using DC optimal power flow technique to minimize the damage. Then the original bi-level problem is transformed into an equivalent single-level mixed-integer linear program through strong duality theorem and Big-M method. The proposed attack resource allocation method is applied on IEEE 39-bus system and its effectiveness is demonstrated by the comparative case studies.