This work concerns efficient and reliable numerical simulations of the dynamic behaviour of a moving-boundary model for tubulin-driven axonal growth. The model is nonlinear and consists of a coupled set of a partial differential equation (PDE) and two ordinary differential equations. The PDE is defined on a computational domain with a moving boundary, which is part of the solution. Numerical simulations based on standard explicit time-stepping methods are too time consuming due to the small time steps required for numerical stability. On the other hand standard implicit schemes are too complex due to the nonlinear equations that needs to be solved in each step. Instead, we propose to use the Peaceman–Rachford splitting scheme combined with ...
The formation of neuron networks is a process of fundamental importance for understanding the develo...
ABSTRACTThe growth of an actin network against an obstacle that stimulates branching locally is stud...
In this paper, a simulation tool for modeling axon guidance is presented. A mathematical framework i...
In the current paper a numerical approach is presented for solving a system of coupled gradient-diff...
A mathematical model for neuronal growth is presented, describing the process of axonal elongation. ...
In this paper we discuss a model from neurobiology, which describes theoutgrowth of axons from neuro...
Axonal growth is a complex phenomenon in which many intra- and extra-cellular signals collaborate si...
Neuronal growth is a complex process involving many intra- and extracellular mechanisms which are co...
AbstractNeurons are cells that carry electrical impulses. The growth of axons in these cells has bee...
Geometrical cues are known to play a very important role in neuronal growth and the formation of neu...
Geometrical cues are known to play a very important role in neuronal growth and the formation of neu...
AbstractA method for simulating the growth of branched actin networks against obstacles has been dev...
Introduction In this chapter we will discuss some practical and technical aspects of numerical meth...
ABSTRACT Whether the axonal framework is stationary or moves is a central debate in cell biology. To...
AbstractWhether the axonal framework is stationary or moves is a central debate in cell biology. To ...
The formation of neuron networks is a process of fundamental importance for understanding the develo...
ABSTRACTThe growth of an actin network against an obstacle that stimulates branching locally is stud...
In this paper, a simulation tool for modeling axon guidance is presented. A mathematical framework i...
In the current paper a numerical approach is presented for solving a system of coupled gradient-diff...
A mathematical model for neuronal growth is presented, describing the process of axonal elongation. ...
In this paper we discuss a model from neurobiology, which describes theoutgrowth of axons from neuro...
Axonal growth is a complex phenomenon in which many intra- and extra-cellular signals collaborate si...
Neuronal growth is a complex process involving many intra- and extracellular mechanisms which are co...
AbstractNeurons are cells that carry electrical impulses. The growth of axons in these cells has bee...
Geometrical cues are known to play a very important role in neuronal growth and the formation of neu...
Geometrical cues are known to play a very important role in neuronal growth and the formation of neu...
AbstractA method for simulating the growth of branched actin networks against obstacles has been dev...
Introduction In this chapter we will discuss some practical and technical aspects of numerical meth...
ABSTRACT Whether the axonal framework is stationary or moves is a central debate in cell biology. To...
AbstractWhether the axonal framework is stationary or moves is a central debate in cell biology. To ...
The formation of neuron networks is a process of fundamental importance for understanding the develo...
ABSTRACTThe growth of an actin network against an obstacle that stimulates branching locally is stud...
In this paper, a simulation tool for modeling axon guidance is presented. A mathematical framework i...