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Distributed Fixed-Time Coordination Control for Networked Multiple Euler–Lagrange Systems

Tao Xu, Zhisheng Duan, Zhiyong Sun, Guanrong Chen

2020IEEE Transactions on Cybernetics64 citationsDOIOpen Access PDF

Abstract

This work investigates the fixed-time distributed coordination control for multiple Euler-Lagrange systems and, in particular, addresses containment control with stationary/dynamic leaders as well as leaderless synchronization control. For the containment control scenario with stationary leaders, the subgraph associated with followers is directed. When dynamic leaders are involved, the information transfer between neighboring followers is bidirectional, for which a novel distributed estimator is developed. For the leaderless synchronization control scenario, the communication network among agents is unidirectional. Three fixed-time distributed control schemes are designed for the aforementioned three cases by applying the fixed-time stability theory. The convergence of the coordination control objectives can be achieved in a fixed time that does not depend on any initial conditions of agents' states, and the settling times are also explicitly derived. Finally, numerical simulations are presented to demonstrate the feasibility of the developed control strategies.

Topics & Concepts

Synchronization (alternating current)Control theory (sociology)Computer scienceConvergence (economics)Control (management)Settling timeDistributed computingFixed pointContainment (computer programming)Control engineeringMathematicsEngineeringComputer networkEconomic growthEconomicsStep responseChannel (broadcasting)Artificial intelligenceMathematical analysisProgramming languageDistributed Control Multi-Agent SystemsNeural Networks Stability and SynchronizationNonlinear Dynamics and Pattern Formation