Collaborative response to disruption propagation (CRDP) in cyber-physical systems and complex networks
作者:
Highlights:
• Disruptions can quickly propagate within highly connected cyber-physical systems.
• The presence of response mechanism can prevent disruptions from propagating.
• The propagation-response interaction can be utilized to optimize response.
• A general model captures collaborative response to disruption propagation.
• This model and its analytics & protocols can be adapted to support decision making.
摘要
Disruptive events, such as natural disasters and manmade coordinated attacks, have inspired greater interests in the concept of disruption propagation and disruption response in cyber-physical systems (CPSs) and complex networks. Due to the high interconnectedness and complex interactions within and between CPSs, disruptions are not isolated events, and can propagate with severe impacts both locally and remotely, and must be contained lest catastrophic and irreversible damages occur. Responding agents are often employed to tackle the disruptions, and the agents' effectiveness becomes a critical concern, which is addressed in this article. Although the phenomenon of disruption propagation in CPSs and complex networks is becoming better understood, the interactions between the responding agents and the disruption propagation have not yet been investigated and studied in detail. In this work, the Collaborative Response of Disruption Propagation (CRDP) model is introduced as a general approach to the network disruption propagation problem. The CRDP model captures the important components of the problem: The client network, the agent network, the disruptions, and their interactions. Three system awareness analytics and two novel online scheduling protocols have been developed based on the analysis of the interactions. The analytics and protocols seek to provide insights into the system's conditions, and guide the response agents and their management to contain and eliminate the disruption propagation. The CRDP model, together with its developed analytics and protocols, can be applied to different network types, different disruption scenarios, and different response mechanisms available due to the generality of the model.
论文关键词:Cyber-physical systems,Complex networks,Collaborative response,Disruption propagation,Disruption response mechanism
论文评审过程:Received 20 August 2018, Revised 17 November 2018, Accepted 29 November 2018, Available online 1 December 2018, Version of Record 10 December 2018.
论文官网地址:https://doi.org/10.1016/j.dss.2018.11.005