Switching adaptive event-triggered consensus control for MASs subject to sequential scaling attacks and transmission delays
Authors: 
Gen Li, Xiuxia Yin, Zhiwei GaoAuthors Info & Claims
Gen Li, Xiuxia Yin, Zhiwei GaoAuthors Info & ClaimsReferences
[1]
J. Wu, S. Yuan, S. Ji, G. Zhou, Y. Wang, Z. Wang, Multi-agent system design and evaluation for collaborative wireless sensor network in large structure health monitoring, Expert Syst. Appl. 37 (3) (2010) 2028–2036.
[2]
P. Mani, Y.H. Joo, Fuzzy logic-based integral sliding mode control of multi-area power systems integrated with wind farms, Inf. Sci. 545 (2021) 153–169.
[3]
J. Schiffer, T. Seel, J. Raisch, T. Sezi, Voltage stability and reactive power sharing in inverter-based microgrids with consensus-based distributed voltage control, IEEE Trans. Control Syst. Technol. 24 (1) (2016) 96–109.
[4]
H. Su, J. Zhang, X. Chen, A stochastic sampling mechanism for time-varying formation of multi-agent systems with multiple leaders and communication delays, IEEE Trans. Neural Netw. Learn. Syst. 30 (12) (2019) 3699–3707.
[5]
A. Abdessameud, A. Tayebi, On consensus algorithms design for double integrator dynamics, Automatica 49 (1) (2013) 253–260.
[6]
Y. Cai, H. Zhang, J. Zhang, W. Wang, Fixed-time leader-following/containment consensus for a class of nonlinear multi-agent systems, Inf. Sci. 555 (2021) 58–84.
[7]
H. Su, Y. Liu, Z. Zeng, Second-order consensus for multi-agent systems via intermittent sampled position data control, IEEE Trans. Cybern. 50 (5) (2019) 2063–2072.
[8]
E. Canbalaban, S. Sen, A cross-layer intrusion detection system for rpl-based Internet of things, in: Ad-Hoc, Mobile, and Wireless Networks: 19th International Conference on Ad-Hoc Networks and Wireless, ADHOC-NOW 2020, Bari, Italy, October 19–21, 2020, Proceedings 19, Springer, 2020, pp. 214–227.
[9]
J. Liu, X. Wang, Secure consensus control for multi-agent systems subject to consecutive asynchronous dos attacks, Int. J. Control. Autom. Syst. 21 (1) (2023) 61–70.
[10]
X.-G. Guo, B.-Q. Wang, J.-L. Wang, C.K. Ahn, Z.-G. Wu, Edge-event-triggered encryption-decryption observer-based control of multiagent systems for privacy protection under multiple cyber attacks, Inf. Sci. (2023).
[11]
D.V. Dimarogonas, E. Frazzoli, K.H. Johansson, Distributed event-triggered control for multi-agent systems, IEEE Trans. Autom. Control 57 (5) (2011) 1291–1297.
[12]
W.H. Heemels, M. Donkers, A.R. Teel, Periodic event-triggered control for linear systems, IEEE Trans. Autom. Control 58 (4) (2012) 847–861.
[13]
X. Yin, D. Yue, S. Hu, H. Zhang, Distributed adaptive model-based event-triggered predictive control for consensus of multi-agent systems, Int. J. Robust Nonlinear Control 28 (18) (2018) 6180–6201.
[14]
X. Wang, H. Su, X. Wang, G. Chen, Fully distributed event-triggered semiglobal consensus of multi-agent systems with input saturation, IEEE Trans. Ind. Electron. 64 (6) (2016) 5055–5064.
[15]
W. Zhang, Y. Tang, Y. Liu, J. Kurths, Event-triggering containment control for a class of multi-agent networks with fixed and switching topologies, IEEE Trans. Circuits Syst. I, Regul. Pap. 64 (3) (2017) 619–629.
[16]
Y. Xu, G. Guo, Event triggered control of connected vehicles under multiple cyber attacks, Inf. Sci. 582 (2022) 778–796.
[17]
X. Ge, Q. Han, D. Ding, X.M. Zhang, B. Ning, A survey on recent advances in distributed sampled-data cooperative control of multi-agent systems, Neurocomputing 275 (2018) 1684–1701.
[18]
A. Amini, A. Asif, A. Mohammadi, A performance guaranteed sampled-data event-triggered consensus approach for linear multi-agent systems, Inf. Sci. 484 (2019) 338–349.
[19]
S. Murugesan, Y.-C. Liu, Resilient finite-time distributed event-triggered consensus of multi-agent systems with multiple cyber-attacks, Commun. Nonlinear Sci. Numer. Simul. 116 (2023).
[20]
Q. Wang, W. Diao, L. Zino, X. Peng, W. Zhong, Observer-based secure event-triggered bipartite consensus control of linear multiagent systems subject to denial-of-service attacks, IEEE Trans. Circuits Syst. II, Express Briefs 69 (12) (2022) 5054–5058.
[21]
J. Chen, B. Chen, Z. Zeng, Adaptive dynamic event-triggered fault-tolerant consensus for nonlinear multiagent systems with directed/undirected networks, IEEE Trans. Cybern. 53 (6) (2023) 3901–3912.
[22]
Y. Wang, F. Chen, G. Zhuang, G. Song, Event-based asynchronous and resilient filtering for Markov jump singularly perturbed systems against deception attacks, ISA Trans. 112 (2021) 56–73.
[23]
X. Zhou, Y. Tang, J. Cheng, J. Cao, C. Xue, D. Yan, Nonstationary quantized control for discrete-time Markov jump singularly perturbed systems against deception attacks, J. Franklin Inst. 358 (6) (2021) 2915–2932.
[24]
Z. Feng, G. Hu, Secure cooperative event-triggered control of linear multiagent systems under dos attacks, IEEE Trans. Control Syst. Technol. 28 (3) (2020) 741–752.
[25]
C. De Persis, P. Tesi, Input-to-state stabilizing control under denial-of-service, IEEE Trans. Autom. Control 60 (11) (2015) 2930–2944.
[26]
P. Wang, G. Wen, X. Yu, W. Yu, Y. Wan, Synchronization of resilient complex networks under attacks, IEEE Trans. Syst. Man Cybern. Syst. 51 (2) (2021) 1116–1127.
[27]
Z. Feng, G. Wen, G. Hu, Distributed secure coordinated control for multiagent systems under strategic attacks, IEEE Trans. Cybern. 47 (5) (2016) 1273–1284.
[28]
S. Hu, D. Yue, X. Xie, X. Chen, X. Yin, Resilient event-triggered controller synthesis of networked control systems under periodic dos jamming attacks, IEEE Trans. Cybern. 49 (12) (2018) 4271–4281.
[29]
C. Yang, W. Yao, Y. Wang, X. Ai, Resilient event-triggered load frequency control for multi-area power system with wind power integrated considering packet losses, IEEE Access 9 (2021) 78784–78798.
[30]
K. Liang, W. He, Secure consensus control of two-timescale networks subject to sequential scaling attacks, in: IECON 2021–47th Annual Conference of the IEEE, Industrial Electronics Society, IEEE, 2021, pp. 1–6.
[31]
W. He, Z. Mo, Secure event-triggered consensus control of linear multiagent systems subject to sequential scaling attacks, IEEE Trans. Cybern. 52 (10) (2022) 10314–10327.
[32]
S. Li, K. Liang, W. He, Fully distributed event-triggered secure consensus of general linear multi-agent systems under sequential scaling attacks, ISA Trans. 127 (2022) 146–155.
[33]
P. Chen, S. Liu, D. Zhang, L. Yu, Adaptive event-triggered decentralized dynamic output feedback control for load frequency regulation of power systems with communication delays, IEEE Trans. Syst. Man Cybern. Syst. 52 (9) (2022) 5949–5961.
[34]
Y. Zhu, Q. Huang, J. Wu, Y. Zheng, H. Wang, Synchronous and asynchronous resilient impulsive control for group consensus of second-order multi-agent systems with communication delays, ISA Trans. 131 (2022) 274–281.
[35]
C. Li, X. Zong, Group hybrid coordination control of multi-agent systems with time-delays and additive noises, IEEE/CAA J. Autom. Sin. 10 (3) (2023) 737–748.
[36]
V.T. Ngo, Y.C. Liu, Distributed consensus control of networked robotic systems with dynamic leader under time-varying delays and denial-of-service attacks, IEEE Access 10 (2022) 92663–92672.
[37]
L. Liu, H. Sun, L. Ma, J. Zhang, Y. Bo, Quasi-consensus control for a class of time-varying stochastic nonlinear time-delay multiagent systems subject to deception attacks, IEEE Trans. Syst. Man Cybern. Syst. 51 (11) (2021) 6863–6873.
[38]
H. Li, G. Chen, T. Huang, Z. Dong, W. Zhu, L. Gao, Event-triggered distributed average consensus over directed digital networks with limited communication bandwidth, IEEE Trans. Cybern. 46 (12) (2016) 3098–3110.
[39]
X. Yin, D. Yue, S. Hu, Adaptive periodic event-triggered consensus for multi-agent systems subject to input saturation, Int. J. Control 89 (4) (2015) 653–667.
[40]
C. De Persis, P. Tesi, Resilient control under denial-of-service, IFAC Proc. Vol. 47 (3) (2014) 134–139.
[41]
S. Hu, D. Yue, Event-triggered control design of linear networked systems with quantizations, ISA Trans. 51 (1) (2012) 153–162.
[42]
X. Lin, F. Wang, C. Zhou, W. Liu, Dynamic event-triggered consensus control for leader-following multi-agent systems with communication delay, IEEE Trans. Circuits Syst. II, Express Briefs (2022) 1.
[43]
J. Xiong, J. Lam, Stabilization of networked control systems with a logic zoh, IEEE Trans. Autom. Control 54 (2) (2009) 358–363.
[44]
Z. Cheng, D. Yue, S. Hu, H. Ge, L. Chen, Distributed event-triggered consensus of multi-agent systems under periodic denial-of-service jamming attacks, Neurocomputing 400 (2020) 458–466.
[45]
R.J. Adams, J.M. Buffington, A.G. Sparks, S.S. Banda, Robust Multivariable Flight Control, Springer Science & Business Media, 2012.
[46]
X. Ge, Q. Han, F. Yang, Event-based set-membership leader-following consensus of networked multi-agent systems subject to limited communication resources and unknown-but-bounded noise, IEEE Trans. Ind. Electron. 64 (6) (2016) 5045–5054.
[47]
G. Guo, J. Kang, Distributed optimization of multiagent systems against unmatched disturbances: a hierarchical integral control framework, IEEE Trans. Syst. Man Cybern. Syst. 52 (6) (2021) 3556–3567.
[48]
G. Guo, R. Zhang, Lyapunov redesign-based optimal consensus control for multi-agent systems with uncertain dynamics, IEEE Trans. Circuits Syst. II, Express Briefs 69 (6) (2022) 2902–2906.
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Published: 01 November 2023
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