Well-posedness for systems of self-propelled particles

This paper deals with the existence and uniqueness of solutions to kinetic equations describing alignment of self-propelled particles. The particularity of these models is that the velocity variable is not on the euclidean space but constrained on the unit sphere (the self-propulsion constraint). Two related equations are considered : the first one in which the alignment mechanism is nonlocal, using an observation kernel depending on the space variable, and a second form which is purely local, corresponding to the principal order of a scaling limit of the first one. We prove local existence and uniqueness of weak solutions in both cases for bounded initial conditions (in space and velocity) with finite total mass. The solution is proven to depend continuously on the initial data in $L^p$ spaces with finite p. In the case of a bounded kernel of observation, we obtain that the solution is global in time. Finally by exploiting the fact that the second equation corresponds to the principal order of a scaling limit of the first one we deduce a Cauchy theory for an approximate problem approaching the second one.

• Publication year

  2023

• Venue

  Kinetic and Related Models

• Publication date

  2023-05-09

• Fields of study

  Mathematics, Physics

• Identifiers
  DOI 10.3934/krm.2023036arXiv 2305.05336
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• No claims are published for this paper.

• No concepts are published for this paper.

• Cauchy Theory for General Kinetic Vicsek Models in Collective Dynamics and Mean-Field Limit Approximations

  2020cited by this paper
• Quaternions in Collective Dynamics

  2017cited by this paper
• Global Weak Solutions for Kolmogorov–Vicsek Type Equations with Orientational Interactions

  2015cited by this paper
• Mass sperm motility is associated with fertility in sheep.

  2015cited by this paper
• Global Well-posedness of the Spatially Homogeneous Kolmogorov–Vicsek Model as a Gradient Flow

  2015cited by this paper
• Phase Transitions, Hysteresis, and Hyperbolicity for Self-Organized Alignment Dynamics

  2013cited by this paper
• Hydrodynamics of soft active matter

  2013cited by this paper
• Schools of fish and flocks of birds: their shape and internal structure by self-organization

  2012cited by this paper
• A note on phase transitions for the Smoluchowski equation with dipolar potential

  2012cited by this paper
• Dynamics in a Kinetic Model of Oriented Particles with Phase Transition

  2011influential reference
• Mean-field limit for the stochastic Vicsek model

  2011cited by this paper
• A MACROSCOPIC CROWD MOTION MODEL OF GRADIENT FLOW TYPE

  2010cited by this paper
• Self-organised complex aerial displays of thousands of starlings: a model

  2009cited by this paper
• Continuity of Velocity Gradients in Suspensions of Rod–like Molecules

  2008cited by this paper
• Hydrodynamics and phases of flocks

  2005cited by this paper
• Collective Motion

  1999cited by this paper
• Novel type of phase transition in a system of self-driven particles.

  1995cited by this paper
• Global existence of smooth solutions for the Vlasov-Fokker-Planck equation in $1$ and $2$ space dimensions

  1986cited by this paper
• Molecular dynamics and rheological properties of concentrated solutions of rodlike polymers in isotropic and liquid crystalline phases

  1981cited by this paper
• Équations Différentielles Opérationnelles Et Problèmes Aux Limites

  1961cited by this paper
• THE EFFECTS OF SHAPE ON THE INTERACTION OF COLLOIDAL PARTICLES

  1949cited by this paper

• Local well‐posedness of classical solutions for the kinetic self‐organized model of Cucker–Smale type

  2024cites this paper
• Regularity and trend to equilibrium for a non-local advection-diffusion model of active particles

  2024cites this paper
• Well-posedness and stationary states for a crowded active Brownian system with size-exclusion

  2023cites this paper