A Zermelo navigation problem with a vortex singularity

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TitreA Zermelo navigation problem with a vortex singularity
Type de publicationJournal Article
Year of Publication2021
AuteursBonnard B, Cots O, Wembe B
JournalESAIM-CONTROL OPTIMISATION AND CALCULUS OF VARIATIONS
Volume27
PaginationS10
Date PublishedMAR 1
Type of ArticleArticle
ISSN1292-8119
Mots-clésClairaut-Randers metric with polar singularity, conjugate and cut loci, Geometric optimal control, Helhmoltz-Kirchhoff N vortices model, Zermelo navigation problem
Résumé

Helhmoltz-Kirchhoff equations of motions of vortices of an incompressible fluid in the plane define a dynamics with singularities and this leads to a Zermelo navigation problem describing the ship travel in such a field where the control is the heading angle. Considering one vortex, we define a time minimization problem which can be analyzed with the technics of geometric optimal control combined with numerical simulations, the geometric frame being the extension of Randers metrics in the punctured plane, with rotational symmetry. Candidates as minimizers are parameterized thanks to the Pontryagin Maximum Principle as extremal solutions of a Hamiltonian vector field. We analyze the time minimal solution to transfer the ship between two points where during the transfer the ship can be either in a strong current region in the vicinity of the vortex or in a weak current region. The analysis is based on a micro-local classification of the extremals using mainly the integrability properties of the dynamics due to the rotational symmetry. The discussion is complex and related to the existence of an isolated extremal (Reeb) circle due to the vortex singularity. The explicit computation of cut points where the extremal curves cease to be optimal is given and the spheres are described in the case where at the initial point the current is weak.

DOI10.1051/cocv/2020058