Analysis of interlocking faults and reliability evaluation methods for communication networks of power information physical systems

Author:

Zhou Yutian,Yuan Xiao,Wang Zhihua,Yu Lijing,Ren Yin,Lin Hanchu

Abstract

Abstract The information physics system realizes the integration and interaction between them by the 3C technique. The application of scheduling automation, Substation Automation and Online Fault Recovery Technology Improves Emergency Response Capability, and Information Security issues are also embedded in the energy system. Power grid operation is facing more threats, and state space and failure scenarios are also more abundant, which poses new research needs and challenges for power system stability assessment. First, the physical interaction of information is analyzed. From the perspective of function, the CPPS hierarchy corresponds to the physical Electric power system, the information sub-station system and the main station system respectively. Then, taking the information node as the fault detection sample point, the chain fault model of the power information physical system is studied, and the abnormal response of the power information system is classified and identified, Finally, a failure response model and a failure recovery model are built. Finally, a simulation example is given for verification.

Publisher

IOP Publishing

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