A new continuum model for the growth of a single species biofilm is proposed. The geometry of the biofilm is described by the interface between the biomass and the surrounding liquid. Nutrient transport is given by the solution of a semi-linear Poisson equation. In this model we study the morphology of a chemotactic bacterial colony, which grows in the direction of increasing nutrient concentration. Numerical simulations using the level set method and finite difference schemes are presented. The results show rich heterogeneous morphology
The work presents a contribution to the mathematical modelling of formation and growth of multispeci...
A continuum mathematical model with sharp interface is proposed for describing the occurrence of pa...
International audienceA continuum mathematical model with sharp interface is proposed for describing...
A mathematical model for multispecies biofilm evolution based on continuum approach and mass conserv...
A mathematical model for multispecies biofilm evolution based on continuum approach and mass conserv...
A continuum approach to mathematical modeling of multispecies biofilm formation and growth is presen...
A continuum approach to mathematical modeling of multispecies biofilm formation and growth is presen...
A continuum approach to mathematical modeling of multispecies biofilm formation and growth is presen...
We introduce and analyze a prototype model for chemotactic effects in biofilm formation. The model i...
The work presents a mathematical modelling approach to study dynamic competition during the attachme...
We present a mathematical model for growth and control of facultative anaerobic bacterial biofilms i...
A differential equation describing the chemotactic migration of a bacterial population in a fixed ex...
The work presents a contribution to the mathematical modelling of formation and growth of multispeci...
The work presents a contribution to the mathematical modelling of formation and growth of multispeci...
We present a class of deterministic continuum models for spatially heterogeneous biofilm communities...
The work presents a contribution to the mathematical modelling of formation and growth of multispeci...
A continuum mathematical model with sharp interface is proposed for describing the occurrence of pa...
International audienceA continuum mathematical model with sharp interface is proposed for describing...
A mathematical model for multispecies biofilm evolution based on continuum approach and mass conserv...
A mathematical model for multispecies biofilm evolution based on continuum approach and mass conserv...
A continuum approach to mathematical modeling of multispecies biofilm formation and growth is presen...
A continuum approach to mathematical modeling of multispecies biofilm formation and growth is presen...
A continuum approach to mathematical modeling of multispecies biofilm formation and growth is presen...
We introduce and analyze a prototype model for chemotactic effects in biofilm formation. The model i...
The work presents a mathematical modelling approach to study dynamic competition during the attachme...
We present a mathematical model for growth and control of facultative anaerobic bacterial biofilms i...
A differential equation describing the chemotactic migration of a bacterial population in a fixed ex...
The work presents a contribution to the mathematical modelling of formation and growth of multispeci...
The work presents a contribution to the mathematical modelling of formation and growth of multispeci...
We present a class of deterministic continuum models for spatially heterogeneous biofilm communities...
The work presents a contribution to the mathematical modelling of formation and growth of multispeci...
A continuum mathematical model with sharp interface is proposed for describing the occurrence of pa...
International audienceA continuum mathematical model with sharp interface is proposed for describing...
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