Stochastic flocking dynamics of the inertial spin model with state‐dependent noises

Author:

Ko Dongnam1ORCID,Ha Seung‐Yeal2,Lee Euntaek3,Shim Woojoo4ORCID

Affiliation:

1. Department of Mathematics The Catholic University of Korea, Bucheon Gyeonggido Republic of Korea

2. Department of Mathematical Sciences and Research Institute of Mathematics Seoul National University Seoul Republic of Korea

3. Department of Mathematical Sciences Seoul National University Seoul Republic of Korea

4. Department of Mathematics Education Kyungpook National University Daegu Republic of Korea

Abstract

AbstractWe study stochastic flocking dynamics of the inertial spin (IS) model with state‐dependent noises. The IS model was considered to describe the collective behaviors of starling flocks moving with constant speed. Unlike mechanical flocking models extensively studied in the literature, this model incorporates an internal dynamic observable, namely spin (internal angular momentum) in addition to mechanical observables (position and velocity), and it describes how spin interacts with mechanical observables. In previous works, emergent dynamics of the deterministic counterparts for the IS model and its mean‐field limit have been investigated under some specific setting in which network topology is multiplicatively separable. In this work, we present sufficient frameworks for stochastic flocking dynamics of the IS model, which state‐dependent noises vanish at the equilibria of the deterministic IS model. The proposed frameworks are in terms of coupling strength, friction, and inertial coefficients, and our asymptotic convergence results for sample paths are given in both an almost sure and an expectation sense. We have also conducted several numerical experiments to verify our analytical results and to explore what can be studied further in future work

Funder

National Research Foundation of Korea

Catholic University of Korea

Publisher

Wiley

Subject

Applied Mathematics

Reference39 articles.

1. Vehicular traffic, crowds, and swarms: From kinetic theory and multiscale methods to applications and research perspectives

2. Information transfer and behavioural inertia in starling flocks

3. Systèmes dáquations diffárentielles dÕoscillations non Lináaires;Barbǎlat I;Rev Math Pures Appl,1959

4. Some aspects of the inertial spin model for flocks and related kinetic equations

5. BerglundN GentzB.Noise‐Induced Phenomena in Slow‐Fast Dynamical Systems.A Sample‐Paths Approach.Springer;2006.

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