Dynamics in an attraction–repulsion Navier–Stokes system with signal-dependent motility and sensitivity
DOI10.1063/5.0029161zbMath1466.35293OpenAlexW3151173584MaRDI QIDQ4987860
Publication date: 4 May 2021
Published in: Journal of Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/5.0029161
classical solutionslong time behaviorchemical signalsattraction-repulsion Navier-Stokes modeluniform-in-time boundedness
Navier-Stokes equations for incompressible viscous fluids (76D05) Navier-Stokes equations (35Q30) Reaction effects in flows (76V05) Uniqueness problems for PDEs: global uniqueness, local uniqueness, non-uniqueness (35A02) Classical solutions to PDEs (35A09)
Related Items (1)
Cites Work
- Unnamed Item
- Analysis and numerical simulations of a chemotaxis model of aggregation of microglia in Alzheimer's disease
- Reaction terms avoiding aggregation in slow fluids
- Boundedness and large time behavior of an attraction-repulsion chemotaxis model with logistic source
- Blow-up prevention by quadratic degradation in a two-dimensional Keller-Segel-Navier-Stokes system
- Global existence of solutions to an attraction-repulsion chemotaxis model with growth
- Boundedness and stabilization in a two-dimensional two-species chemotaxis-Navier-Stokes system with competitive kinetics
- Large time behavior of solution to an attraction-repulsion chemotaxis system with logistic source in three dimensions
- Global boundedness and stabilization in a two-competing-species chemotaxis-fluid system with two chemicals
- Initiation of slime mold aggregation viewed as an instability
- Boundedness and decay enforced by quadratic degradation in a three-dimensional chemotaxis-fluid system
- A user's guide to PDE models for chemotaxis
- From 1970 until present: The Keller-Segel model in chemotaxis and its consequences. I
- Boundedness and large time behavior in a two-dimensional Keller-Segel-Navier-Stokes system with signal-dependent diffusion and sensitivity
- Global existence and aggregation in a Keller-Segel model with Fokker-Planck diffusion
- Global dynamics for an attraction-repulsion chemotaxis-(Navier)-Stokes system with logistic source
- From 1970 until present: the Keller-Segel model in chemotaxis and its consequences. II
- Boundedness in the higher dimensional attraction-repulsion chemotaxis-growth system
- Asymptotic and stability dynamics of an HIV-1-cytotoxic T lymphocytes (CTL) chemotaxis model
- Global existence for a kinetic model of pattern formation with density-suppressed motilities
- Equilibration in a fully parabolic two-species chemotaxis system with competitive kinetics
- LPBounds of solutions of reaction-diffusion equations
- Limiting Behavior for Competing Species
- Boundedness, Stabilization, and Pattern Formation Driven by Density-Suppressed Motility
- Global existence and asymptotic behavior of classical solutions for a 3D two‐species chemotaxis‐Stokes system with competitive kinetics
- Boundedness in the higher-dimensional Keller-Segel model with signal-dependent motility and logistic growth
- Global well-posedness and stability of constant equilibria in parabolic–elliptic chemotaxis systems without gradient sensing
- CONVERGENCE OF A CANCER INVASION MODEL TO A LOGISTIC CHEMOTAXIS MODEL
- Effects of signal-dependent motilities in a Keller–Segel-type reaction–diffusion system
- Global weak solutions and eventual smoothness in a 3D two‐competing‐species chemotaxis‐Navier‐Stokes system with two consumed signals
- Toward a mathematical theory of Keller–Segel models of pattern formation in biological tissues
- Global Large-Data Solutions in a Chemotaxis-(Navier–)Stokes System Modeling Cellular Swimming in Fluid Drops
- An attraction‐repulsion chemotaxis system with logistic source
This page was built for publication: Dynamics in an attraction–repulsion Navier–Stokes system with signal-dependent motility and sensitivity
