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A port-Hamiltonian framework for displacement-based and rigid formation tracking

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arxiv 2305.09964 v1 pith:E5L24SDL submitted 2023-05-17 eess.SY cs.SY

A port-Hamiltonian framework for displacement-based and rigid formation tracking

classification eess.SY cs.SY
keywords formationframeworkrigiddisplacement-basedfeedbackachieveasymptoticcontrol
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This paper proposes a passivity-based port-Hamiltonian (pH) framework for multi-agent displacement-based and rigid formation control and velocity tracking. The control law consists of two parts, where the internal feedback is to track the velocity and the external feedback is to achieve formation stabilization by steering variables of neighboring agents that prescribe the desired geometric shape. Regarding the external feedback, a general framework is proposed for all kinds of formations by means of the advantage that the pH model is energy-based and coordinate-free. To solve the issue that the incidence matrix is not of full column rank over cyclic graphs, the matrix property is used to prove the convergence to the target sets for the displacement-based formation, while for rigid formations, the algebraic conditions of infinitesimal rigidity are investigated to achieve asymptotic local stability. Furthermore, the rigid formation with heterogeneous constraints is further investigated under this framework and the asymptotic local stability is proved under a mild assumption. Simulations are performed to illustrate the effectiveness of the framework.

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