Asymptotic flocking for the three-zone model | Zendy

Fei Cao | Zendy; Sébastien Motsch | Zendy; Alexander Reamy | Zendy; Ryan Theisen | Zendy

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Asymptotic flocking for the three-zone model

Author(s) -

Fei Cao,

Sébastien Motsch,

Alexander Reamy,

Ryan Theisen

Publication year - 2020

Publication title -

mathematical biosciences and engineering

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.451

H-Index - 45

eISSN - 1551-0018

pISSN - 1547-1063

DOI - 10.3934/mbe.2020391

Subject(s) - flocking (texture) , statistical physics , swarming (honey bee) , dissipative system , attraction , computer science , classical mechanics , mathematics , physics , ecology , philosophy , quantum mechanics , biology , linguistics

We prove the asymptotic flocking behavior of a general model of swarming dynamics. The model describing interacting particles encompasses three types of behavior: repulsion, alignment and attraction. We refer to this dynamics as the three-zone model. Our result expands the analysis of the so-called Cucker-Smale model where only alignment rule is taken into account. Whereas in the Cucker-Smale model, the alignment should be strong enough at long distance to ensure flocking behavior, here we only require that the attraction is described by a confinemen potential. The key for the proof is to use that the dynamics is dissipative thanks to the alignment term which plays the role of a friction term. Several numerical examples illustrate the result and we also extend the proof for the kinetic equation associated with the three-zone dynamics.

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