CLC number: TP273
On-line Access: 2021-01-11
Received: 2020-04-30
Revision Accepted: 2020-10-10
Crosschecked: 2020-11-23
Cited: 0
Clicked: 4341
Feisheng Yang, Xuhui Liang, Xiaohong Guan. Resilient distributed economic dispatch of a cyber-power system under DoS attack[J]. Frontiers of Information Technology & Electronic Engineering,in press.https://doi.org/10.1631/FITEE.2000201 @article{title="Resilient distributed economic dispatch of a cyber-power system under DoS attack", %0 Journal Article TY - JOUR
DoS攻击下信息物理电网系统的弹性分布式经济调度杨飞生1,2,梁旭辉2,管晓宏1 1西安交通大学智能网络与网络安全教育部重点实验室,中国西安市,710049 2西北工业大学自动化学院,中国西安市,710129 摘要:本文研究焦点是恶意拒绝服务(DoS)攻击下智能电网经济调度问题。以发电实际情况为出发点,建立考虑环境污染代价的新型分布式优化模型。为节省有限的带宽资源,提出一种新的分布式事件触发方案,以在通信网络遭受恶意DoS攻击时保持信息物理电网系统的弹性和经济性。然后,根据梯度下降算法设计一种多智能体一致性协议解决最小化问题,并从最优性和稳定性角度分析系统发电成本最小化的前提。最后,通过单区域10发电机组模拟实验验证了理论结果。 关键词组: Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article
Reference[1]Elsayed WT, El-Saadany EF, 2015. A fully decentralized approach for solving the economic dispatch problem. IEEE Trans Power Syst, 30(4):2179-2189. [2]Fan JY, Zhang L, 1998. Real-time economic dispatch with line flow and emission constraints using quadratic programming. IEEE Trans Power Syst, 13(2):320-325. [3]Gharesifard B, Cortés J, 2014. Distributed continuous-time convex optimization on weight-balanced digraphs. IEEE Trans Autom Contr, 59(3):781-786. [4]Guo FH, Wen CY, Mao JF, et al., 2016. Distributed economic dispatch for smart grids with random wind power. IEEE Trans Smart Grid, 7(3):1572-1583. [5]Guo FH, Li GQ, Wen CY, et al., 2019. An accelerated distributed gradient-based algorithm for constrained optimization with application to economic dispatch in a large-scale power system. IEEE Trans Syst Man Cybern Syst, in press. [6]Guo T, Henwood MI, van Ooijen M, 1996. An algorithm for combined heat and power economic dispatch. IEEE Trans Power Syst, 11(4):1778-1784. [7]Huang BN, Liu LN, Zhang HG, et al., 2019. Distributed optimal economic dispatch for microgrids considering communication delays. IEEE Trans Syst Man Cybern Syst, 49(8):1634-1642. [8]Kia SS, Cortés J, Martínez S, 2015. Distributed convex optimization via continuous-time coordination algorithms with discrete-time communication. Automatica, 55:254-264. [9]Li CJ, Yu XH, Yu WW, et al., 2016. Distributed event-triggered scheme for economic dispatch in smart grids. IEEE Trans Ind Inform, 12(5):1775-1785. [10]Lin CE, Chen ST, Huang CL, 1992. A direct Newton-Raphson economic dispatch. IEEE Trans Power Syst, 7(3):1149-1154. [11]Olfati-Saber R, Murray RM, 2004. Consensus problems in networks of agents with switching topology and time-delays. IEEE Trans Autom Contr, 49(9):1520-1533. [12]Qin JH, Wan YN, Yu XH, et al., 2019. Consensus-based distributed coordination between economic dispatch and demand response. IEEE Trans Smart Grid, 10(4):3709-3719. [13]Qin JH, Wan YN, Yu XH, et al., 2020. A Newton method-based distributed algorithm for multi-area economic dispatch. IEEE Trans Power Syst, 35(2):986-996. [14]Shuai H, Fang JK, Ai XM, et al., 2019. Stochastic optimization of economic dispatch for microgrid based on approximate dynamic programming. IEEE Trans Smart Grid, 10(3):2440-2452. [15]Tan CH, Xu J, Tan YS, et al., 2019. Lagrangian relaxation with incremental proximal method for economic dispatch with large numbers of wind power scenarios. IEEE Trans Power Syst, 34(4):2685-2695. [16]Wang AP, Mu BX, Shi Y, 2019. Event-triggered consensus control for multiagent systems with time-varying communication and event-detecting delays. IEEE Trans Contr Syst Technol, 27(2):507-515. [17]Wang R, Li QQ, Li GG, et al., 2020. A gossip-based distributed algorithm for economic dispatch in smart grids with random communication link failures. IEEE Trans Ind Electron, 67(6):4635-4645. [18]Wu L, 2019. A transformation-based multi-area dynamic economic dispatch approach for preserving information privacy of individual areas. IEEE Trans Smart Grid, 10(1):722-731. [19]Xing H, Mou YT, Fu MY, et al., 2015. Distributed bisection method for economic power dispatch in smart grid. IEEE Trans Power Syst, 30(6):3024-3035. [20]Yan HC, Hu CY, Zhang H, et al., 2019. H∞ output tracking control for networked systems with adaptively adjusted event-triggered scheme. IEEE Trans Syst Man Cybern Syst, 49(10):2050-2058. [21]Yan HC, Wang JN, Zhang H, et al., 2020. Event-based security control for stochastic networked systems subject to attacks. IEEE Trans Syst Man Cybern Syst, 50(11):4643-4654. [22]Zhang ZJ, Yue D, Dou CX, et al., 2019. A robust consensus-based economic dispatch strategy under DoS attack. IEEE Int Conf on Industrial Cyber Physical Systems, p.127-132. [23]Zhao CC, He JP, Cheng P, et al., 2017. Analysis of consensus-based distributed economic dispatch under stealthy attacks. IEEE Trans Ind Electron, 64(6):5107-5117. Journal of Zhejiang University-SCIENCE, 38 Zheda Road, Hangzhou
310027, China
Tel: +86-571-87952783; E-mail: cjzhang@zju.edu.cn Copyright © 2000 - 2024 Journal of Zhejiang University-SCIENCE |
Open peer comments: Debate/Discuss/Question/Opinion
<1>