# Kinetic equations and self-organized band formations

**Authors:** Quentin Griette, Sebastien Motsch

arXiv: 1901.04232 · 2024-12-20

## TL;DR

This paper investigates kinetic equations related to self-organized band formations in collective motion, presenting a numerical scheme that preserves physical properties and analyzing the emergence of stable band patterns.

## Contribution

It introduces a numerical scheme for the kinetic Vicsek model that maintains key physical properties and provides insights into the formation of stable band patterns.

## Key findings

- Numerical scheme preserves energy and positivity.
- Pattern of bands emerges stably in simulations.
- Insights into band formation mechanisms.

## Abstract

Self-organization is an ubiquitous phenomenon in nature which can be observed in a variety of different contexts and scales, with examples ranging from fish schools, swarms of birds or locusts, to flocks of bacteria. The observation of such global patterns can often be reproduced in models based on simple interactions between neighboring particles. In this paper we focus on two particular interaction dynamics closely related to the one described in the seminal paper of Vicsek and collaborators. After reviewing the current state of the art in the subject, we study a numerical scheme for the kinetic equation associated with the Vicsek models which has the specificity of reproducing many physical properties of the continuous models, like the preservation of energy and positivity and the diminution of an entropy functional. We describe a stable pattern of bands emerging in the dynamics proposed by Degond-Frouvelle-Liu dynamics and give some insights about their formation.

## Full text

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## Figures

32 figures with captions in the complete paper: https://tomesphere.com/paper/1901.04232/full.md

## References

24 references — full list in the complete paper: https://tomesphere.com/paper/1901.04232/full.md

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Source: https://tomesphere.com/paper/1901.04232