Fully Distributed Event-Triggered Consensus of Linear Multi-Agents Systems With Input Delay and Unknown Disturbance

Fully Distributed Event-Triggered Consensus of Linear Multi-Agents Systems With Input Delay and Unknown Disturbance

This paper focuses on the fully distributed event-triggered linear multi-agents issue with network delay and external disturbance. Based on the designed observer, slide mode control theory is introduced to deal with the unknown disturbance. Compared with the previous related works, the deterministic...

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Bibliographic Details
Published in:2023 3rd International Conference on Communication Technology and Information Technology (ICCTIT) pp. 103 - 108
Main Authors: Dong, Yixiang, Ni, Hongquan, Li, Zeshuai
Format: Conference Proceeding
Language:English
Published: IEEE 24-11-2023
Subjects:
Adaptive control
Consensus protocol
Control systems
Delays
distributed control
event-triggered control
input delay
Interference
Multi-agent systems
multiagent systems
Observers
Perturbation methods
unknown disturbance
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Summary:This paper focuses on the fully distributed event-triggered linear multi-agents issue with network delay and external disturbance. Based on the designed observer, slide mode control theory is introduced to deal with the unknown disturbance. Compared with the previous related works, the deterministic sinusoidal disturbance is no longer needed, and a known network delay is introduced for practical reasons. Without requirement of global information and Zeno behavior, the event-triggered consensus protocol is exported, which is fully distributed. By utilizing a 4 nodes multi-agents system simulation, we attested the validity of our control laws.
DOI:10.1109/ICCTIT60726.2023.10435800