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Flocking control of multi-agent systems with application to nonholonomic multi-robots

Qin LiZhong-Ping Jiang — 2009

Kybernetika

In this paper, we revisit the artificial potential based approach in the flocking control for multi-agent systems, where our main concerns are migration and trajectory tracking problems. The static destination or, more generally, the moving reference point is modeled by a virtual leader, whose information is utilized by some agents, called active agents (AA), for the controller design. We study a decentralized flocking controller for the case where the set of AAs is fixed. Some results on the velocity...

Necessary and sufficient Lyapunov-like conditions for robust nonlinear stabilization

Iasson KarafyllisZhong-Ping Jiang — 2010

ESAIM: Control, Optimisation and Calculus of Variations

In this work, we propose a methodology for the expression of necessary and sufficient Lyapunov-like conditions for the existence of stabilizing feedback laws. The methodology is an extension of the well-known Control Lyapunov Function (CLF) method and can be applied to very general nonlinear time-varying systems with disturbance and control inputs, including both finite and infinite-dimensional systems. The generality of the proposed methodology is also reflected upon by the fact that partial...

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