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Composite Distributed Learning and Synchronization of Nonlinear Multi-Agent Systems with Complete Uncertain Dynamics (2403.00987v3)

Published 1 Mar 2024 in cs.MA, cs.RO, cs.SY, and eess.SY

Abstract: This paper addresses the problem of composite synchronization and learning control in a network of multi-agent robotic manipulator systems with heterogeneous nonlinear uncertainties under a leader-follower framework. A novel two-layer distributed adaptive learning control strategy is introduced, comprising a first-layer distributed cooperative estimator and a second-layer decentralized deterministic learning controller. The first layer is to facilitate each robotic agent's estimation of the leader's information. The second layer is responsible for both controlling individual robot agents to track desired reference trajectories and accurately identifying/learning their nonlinear uncertain dynamics. The proposed distributed learning control scheme represents an advancement in the existing literature due to its ability to manage robotic agents with completely uncertain dynamics including uncertain mass matrices. This allows the robotic control to be environment-independent which can be used in various settings, from underwater to space where identifying system dynamics parameters is challenging. The stability and parameter convergence of the closed-loop system are rigorously analyzed using the Lyapunov method. Numerical simulations validate the effectiveness of the proposed scheme.

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Authors (6)
  1. Emadodin Jandaghi (2 papers)
  2. Dalton L. Stein (1 paper)
  3. Adam Hoburg (1 paper)
  4. Mingxi Zhou (4 papers)
  5. Chengzhi Yuan (6 papers)
  6. Paolo Stegagno (4 papers)
Citations (2)
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