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Hierarchical Prescribed-Time Coordination for Multiple Lagrangian Systems With Input-to-Output Redundancy and Matrix-Weighted Networks

Xiao-Feng Zhao, Tao Han, Zhi‐Hong Guan, Bo Xiao, Huaicheng Yan, Yuan Ge

2022IEEE Transactions on Circuits and Systems I Regular Papers22 citationsDOI

Abstract

This paper investigates the prescribed-time coordination problem for multiple Lagrangian systems (MLSs) in the presence of input-to-state redundancy, uncertain dynamic terms, and external disturbances. Moreover, the interdependencies among multiple Lagrangian plants with multi-dimensional states are characterized by matrix-weighted networks. Then, a novel hierarchical prescribed-time control (HPTC) algorithm comprising two parts as well as a hierarchical control framework consisting of two layers are provided to address the aforementioned problem. By virtue of the Lyapunov stability and the nearest neighbor-interaction rules, several sufficient conditions for achieving prescribed-time coordination of the MLSs with input-to-state redundancy and matrix-weighted networks are obtained. Additionally, the designed HPTC algorithm is extended to the case of directed matrix-weighted communication networks in the presence of a directed spanning tree with the leader as the root. Eventually, numerical simulations are provided to demonstrate the validity of the obtained theoretical results.

Topics & Concepts

Redundancy (engineering)Control theory (sociology)MathematicsMatrix (chemical analysis)Mathematical optimizationTree (set theory)Computer scienceState (computer science)AlgorithmControl (management)Artificial intelligenceMaterials scienceComposite materialMathematical analysisOperating systemDistributed Control Multi-Agent SystemsNeural Networks Stability and SynchronizationNonlinear Dynamics and Pattern Formation
Hierarchical Prescribed-Time Coordination for Multiple Lagrangian Systems With Input-to-Output Redundancy and Matrix-Weighted Networks | Litcius