We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological spatial patterns in two-dimensional domains with zero flux boundary conditions. We use the finite-element package ENTWIFE to investigate bifurcation from the uniform solution as the chemotactic parameter varies and as the domain scale and geometry change. We show that this simple cell-chemotaxis model can produce a remarkably wide and surprising range of complex spatial patterns
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
We investigate a simple cell-chemotaxis model for the generation of spatial patterns in cell aggrega...
How spatial patterning arises in biological systems is still an unresolved mystery. Here, we conside...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
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 ...
A tissue interaction model for skin organ pattern formation is presented. Possible spatially pattern...
Chemotaxis is known to be important in cell aggregation in a variety of contexts. We propose a simp...
Many models have been proposed for spatial pattern formation in embryology and analyzed for the stan...
Many models have been proposed for spatial pattern formation in embryology and analyzed for the stan...
Many models have been proposed for spatial pattern formation in embryology and analyzed for the stan...
The formation of spatiotemporal patterning in biology has intrigued experimentalists and theoreticia...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
We investigate a cell-haptotaxis model for the generation of spatial and spatio-temporal patterns in...
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
We investigate a simple cell-chemotaxis model for the generation of spatial patterns in cell aggrega...
How spatial patterning arises in biological systems is still an unresolved mystery. Here, we conside...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
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 ...
A tissue interaction model for skin organ pattern formation is presented. Possible spatially pattern...
Chemotaxis is known to be important in cell aggregation in a variety of contexts. We propose a simp...
Many models have been proposed for spatial pattern formation in embryology and analyzed for the stan...
Many models have been proposed for spatial pattern formation in embryology and analyzed for the stan...
Many models have been proposed for spatial pattern formation in embryology and analyzed for the stan...
The formation of spatiotemporal patterning in biology has intrigued experimentalists and theoreticia...
Many problems in biology involve growth. In numerical simulations it can therefore be very convenien...
We investigate a cell-haptotaxis model for the generation of spatial and spatio-temporal patterns in...
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
We investigate a simple cell-chemotaxis model for the generation of spatial patterns in cell aggrega...
How spatial patterning arises in biological systems is still an unresolved mystery. Here, we conside...