The economic dispatch problem of a smart grid under vicious denial of service(DoS)is the main focus of this paper.Taking the actual situation of power generation as a starting point,a new distributed optimization mode...The economic dispatch problem of a smart grid under vicious denial of service(DoS)is the main focus of this paper.Taking the actual situation of power generation as a starting point,a new distributed optimization model is established which takes the environmentai pollution penalty into account.For saving the limited bandwidth,a novel distributed event-triggered scheme is proposed to keep the resilience and economy of a class of cyber-power syst ems when the communication net work is subject to malicious DoS attack.Then an improved multi-agent consensus protocol based on the gradient descent idea is designed to solve the minimization problem,and the prerequisites to minimize the system power generation cost are analyzed from the aspects of optimality and stability.Finally,the theoretical results are verified through a single-area 10-generat or unit simulation.展开更多
基金Project supported by the National Natural Science Foundation of China(No.62073269)the China Postdoctoral Science Foundation(No.2018M643661)the Natural Science Basic Research Plan in Shaanxi Province of China(No.2018JQ60330)。
文摘The economic dispatch problem of a smart grid under vicious denial of service(DoS)is the main focus of this paper.Taking the actual situation of power generation as a starting point,a new distributed optimization model is established which takes the environmentai pollution penalty into account.For saving the limited bandwidth,a novel distributed event-triggered scheme is proposed to keep the resilience and economy of a class of cyber-power syst ems when the communication net work is subject to malicious DoS attack.Then an improved multi-agent consensus protocol based on the gradient descent idea is designed to solve the minimization problem,and the prerequisites to minimize the system power generation cost are analyzed from the aspects of optimality and stability.Finally,the theoretical results are verified through a single-area 10-generat or unit simulation.
