Research Article
Invulnerability Assessment of Cyber-Physics Systems for Blockchain Environment
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@INPROCEEDINGS{10.1007/978-3-030-21373-2_36, author={Hao Peng and Zhe Kan and Dandan Zhao and Zhonglong Zheng and Feilong Lin}, title={Invulnerability Assessment of Cyber-Physics Systems for Blockchain Environment}, proceedings={Security and Privacy in New Computing Environments. Second EAI International Conference, SPNCE 2019, Tianjin, China, April 13--14, 2019, Proceedings}, proceedings_a={SPNCE}, year={2019}, month={6}, keywords={CPS system Cascading failures Invulnerability analysis Blockchain}, doi={10.1007/978-3-030-21373-2_36} }- Hao Peng
Zhe Kan
Dandan Zhao
Zhonglong Zheng
Feilong Lin
Year: 2019
Invulnerability Assessment of Cyber-Physics Systems for Blockchain Environment
SPNCE
Springer
DOI: 10.1007/978-3-030-21373-2_36
Abstract
Due to the decentralized nature and security attributes of blockchain, cyber-physical systems (CPS) emerge more and more interdependent. However, an important challenge of such interdependent CPS is the cascading failures. Thus, how to analyze the invulnerability of interdependent coupled CPS becomes critical and indispensable. In this paper, we have modeled the interdependent CPS in the blockchain environment, and analyzed the cascading failures process based on the network characteristics. Besides, based on simulation experiments, we analyze the main factor affecting the invulnerability of CPS.
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