Abstract. In this paper, the pattern formation of the attraction-repulsion Keller-Segel (ARKS) system is studied analytically and numerically. By the Hopf bifurcation theorem as well as the local and global bifurcation theorem, we rigorously establish the existence of time-periodic patterns and steady state patterns for the ARKS model in the full parameter regimes, which are identified by a linear stability analysis. We also show that when the chemotactic attrac-tion is strong, a spiky steady state pattern can develop. Explicit time-periodic rippling wave patterns and spiky steady state patterns are obtained numerically by carefully selecting parameter values based on our theoretical results. The study in the paper asserts that chemotactic ...
In this paper we explore the dynamics of a one-dimensional KellerSegel type model for chemotaxis inc...
International audienceCollective motion of chemotactic bacteria as E. Coli relies, at the individual...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
In this paper the pattern formation of the attraction-repulsion Keller-Segel (ARKS) system is studie...
In this paper, the pattern formation of the attraction-repulsion Keller-Segel (ARKS) system is studi...
In this paper, we investigate pattern formation in Keller-Segel chemotaxis models over a multidimens...
(Communicated by Qing Nie) Abstract. The main objective of this article is to study the dynamic tran...
The purpose of this paper is to explore spatio-temporal pattern formation via invasion fronts in the...
How can repulsive and attractive forces, acting on a conservative system, create stable traveling pa...
AbstractLong time dynamics of solutions to a strongly coupled system of parabolic equations modeling...
This paper is dedicated to the attraction-repulsion chemotaxis-system (Formula presented.) (Formula ...
This paper studies a reaction-diffusion-advection system describing a directed movement of immune ce...
Abstract. An important component in studying mathematical models in many biochemical systems, such a...
We present a generalized Keller–Segel model where an arbitrary number of chemical compounds react, s...
We propose a PDE chemotaxis model, which can be viewed as a regularization of the Patlak-Keller-Sege...
In this paper we explore the dynamics of a one-dimensional KellerSegel type model for chemotaxis inc...
International audienceCollective motion of chemotactic bacteria as E. Coli relies, at the individual...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
In this paper the pattern formation of the attraction-repulsion Keller-Segel (ARKS) system is studie...
In this paper, the pattern formation of the attraction-repulsion Keller-Segel (ARKS) system is studi...
In this paper, we investigate pattern formation in Keller-Segel chemotaxis models over a multidimens...
(Communicated by Qing Nie) Abstract. The main objective of this article is to study the dynamic tran...
The purpose of this paper is to explore spatio-temporal pattern formation via invasion fronts in the...
How can repulsive and attractive forces, acting on a conservative system, create stable traveling pa...
AbstractLong time dynamics of solutions to a strongly coupled system of parabolic equations modeling...
This paper is dedicated to the attraction-repulsion chemotaxis-system (Formula presented.) (Formula ...
This paper studies a reaction-diffusion-advection system describing a directed movement of immune ce...
Abstract. An important component in studying mathematical models in many biochemical systems, such a...
We present a generalized Keller–Segel model where an arbitrary number of chemical compounds react, s...
We propose a PDE chemotaxis model, which can be viewed as a regularization of the Patlak-Keller-Sege...
In this paper we explore the dynamics of a one-dimensional KellerSegel type model for chemotaxis inc...
International audienceCollective motion of chemotactic bacteria as E. Coli relies, at the individual...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...