Guangfu Ma scite author profile

In this note, we study a distributed coordinated tracking problem for multiple networked Euler-Lagrange systems. The objective is for a team of followers modeled by full-actuated Euler-Lagrange equations to track a dynamic leader whose vector of generalized coordinates is time varying under the constraints that the leader is a neighbor of only a subset of the followers and the followers have only local interaction. We consider two cases: i) The leader has a constant vector of generalized coordinate derivatives, and ii) The leader has a varying vector of generalized coordinate derivatives. In the first case, we propose a distributed continuous estimator and an adaptive control law to account for parametric uncertainties. In the second case, we propose a model-independent sliding mode control algorithm. Simulation results on multiple networked two-link revolute joint arms are provided to show the effectiveness of the proposed control algorithms.

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Distributed adaptive coordination for multiple Lagrangian systems under a directed graph without using neighbors’ velocity information

Mei

et al. 2013

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Distributed coordination for second-order multi-agent systems with nonlinear dynamics using only relative position measurements

Mei¹,

Ren²,

Ma³

2013

Automatica

193

118

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Robust and adaptive variable structure output feedback control of uncertain systems with input nonlinearity

2008

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Guidance law with impact time and impact angle constraints

Zhang

Liu

2013

Chinese Journal of Aeronautics

141

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Distributed Containment Control for Multiple Unknown Second-Order Nonlinear Systems With Application to Networked Lagrangian Systems

Mei

Ren

et al. 2015

IEEE Trans. Neural Netw. Learning Syst.

136

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In this paper, we consider the distributed containment control problem for multiagent systems with unknown nonlinear dynamics. More specifically, we focus on multiple second-order nonlinear systems and networked Lagrangian systems. We first study the distributed containment control problem for multiple second-order nonlinear systems with multiple dynamic leaders in the presence of unknown nonlinearities and external disturbances under a general directed graph that characterizes the interaction among the leaders and the followers. A distributed adaptive control algorithm with an adaptive gain design based on the approximation capability of neural networks is proposed. We present a necessary and sufficient condition on the directed graph such that the containment error can be reduced as small as desired. As a byproduct, the leaderless consensus problem is solved with asymptotical convergence. Because relative velocity measurements between neighbors are generally more difficult to obtain than relative position measurements, we then propose a distributed containment control algorithm without using neighbors' velocity information. A two-step Lyapunov-based method is used to study the convergence of the closed-loop system. Next, we apply the ideas to deal with the containment control problem for networked unknown Lagrangian systems under a general directed graph. All the proposed algorithms are distributed and can be implemented using only local measurements in the absence of communication. Finally, simulation examples are provided to show the effectiveness of the proposed control algorithms.

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Observer-Based Fault-Tolerant Attitude Control for Rigid Spacecraft

et al. 2017

IEEE Trans. Aerosp. Electron. Syst.

122

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Guangfu Ma

Distributed containment control for Lagrangian networks with parametric uncertainties under a directed graph

Distributed Coordinated Tracking With a Dynamic Leader for Multiple Euler-Lagrange Systems

Distributed adaptive coordination for multiple Lagrangian systems under a directed graph without using neighbors’ velocity information

Distributed coordination for second-order multi-agent systems with nonlinear dynamics using only relative position measurements

Robust and adaptive variable structure output feedback control of uncertain systems with input nonlinearity

Guidance law with impact time and impact angle constraints

Distributed Containment Control for Multiple Unknown Second-Order Nonlinear Systems With Application to Networked Lagrangian Systems

Observer-Based Fault-Tolerant Attitude Control for Rigid Spacecraft

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