Z
Zhang, Renyongkang
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Continuous Distributed Robust Optimization of Multiagent Systems With Time-Varying Cost

Abstract

This article investigates a robust distributed optimization problem for multiagent systems with time-varying cost, subject to disturbances. For the first-order and the second-order systems with bounded disturbances, an integral sliding-mode control framework minimizing the global cost function is presented. For the case with derivative-bounded disturbances, a terminal sliding-mode-based controller comprising a reference model and a tracking controller is proposed. The reference model based on a nominal distributed optimization algorithm plays the role of generating the optimal signal while the tracking controller is responsible for tracking the optimal signal despite the disturbances. The convergence of the proposed algorithms is proved strictly by means of the Lyapunov analysis and homogeneity techniques. The obtained results are also extended to high-order integral chain dynamics. The effectiveness of the methods is illustrated by numerical simulations.

article Article
date_range 2024
language English
link Link of the paper
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Z
Zhang Renyongkang
G
Guo Ge
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Featured Keywords
Optimization
Cost function
Time-varying systems
Heuristic algorithms
Costs
Sliding mode control
Multi-agent systems
Distributed optimization
disturbance
multiagent systems
sliding-mode control
time-varying cost
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