Add to ORKGWe consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains proposed by Oster and Murray (1989, J. exp. Zool. 251, 186-202). We determine finite-amplitude, steady-state, spatially heterogeneous solutions and study the effect of domain growth on the resulting patterns. We also investigate in-depth bifurcating solutions as the chemotactic parameter varies. This numerical study shows that this deceptively simple-chemotaxis model can produce a surprisingly rich spectrum of complex spatial patterns
The formation of spatiotemporal patterning in biology has intrigued experimentalists and theoreticia...
The formation of spatiotemporal patterning in biology has intrigued experimentalists and theoreticia...
In this paper, we investigate pattern formation in Keller-Segel chemotaxis models over a multidimens...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating bio-logical ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
We investigate a simple cell-chemotaxis model for the generation of spatial patterns in cell aggrega...
Chemotaxis is known to be important in cell aggregation in a variety of contexts. We propose a simp...
The formation of spatiotemporal patterning in biology has intrigued experimentalists and theoreticia...
The formation of spatiotemporal patterning in biology has intrigued experimentalists and theoreticia...
In this paper, we investigate pattern formation in Keller-Segel chemotaxis models over a multidimens...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating bio-logical ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
We investigate a simple cell-chemotaxis model for the generation of spatial patterns in cell aggrega...
Chemotaxis is known to be important in cell aggregation in a variety of contexts. We propose a simp...
The formation of spatiotemporal patterning in biology has intrigued experimentalists and theoreticia...
The formation of spatiotemporal patterning in biology has intrigued experimentalists and theoreticia...
In this paper, we investigate pattern formation in Keller-Segel chemotaxis models over a multidimens...