N
Niu, Fuxi
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Distributed time-varying Nash equilibrium in resilient multi-objective formation control for cyber-physical systems

Abstract

This paper investigates the problem of multi -objective time -varying formation control in cyber- physical systems (CPSs) with saturated constraints and malicious agents. By incorporating the concept of multi -agent systems and employing objective weight allocation method, the problem is reformulated as the seeking for the Nash equilibrium solution in a time -varying noncooperative game. To evaluate the trustworthiness of agent behavior, we propose an adaptive weight learning algorithm based on reinforcement learning. Furthermore, we develop a novel smooth saturation control strategy and a predefined time controller to design a distributed resilient algorithm for CPSs with both known and unknown parameters. Additionally, we apply the designed algorithm to the resilient distributed multi -objective time -varying formation control problem of unmanned aerial vehicles (UAVs) to verify its effectiveness.

article Article
date_range 2024
language English
link Link of the paper
format_quote
N
Niu Fuxi
N
Nian Xiaohong
C
Chen Yong
L
Lv Maolong
H
Huang Jinlon
H
Hao Bowen
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Featured Keywords
Cyber-physical system
Distributed multi-objective formation control
Time-varying non-cooperative game
Adaptive weight learning
Input saturation
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