Lattice-gas cellular automaton (LGCA) and lattice Boltzmann (LB) models are promising models for studying emergent behaviour of transport and interaction processes in biological systems. In this chapter, we will emphasise the use of LGCA/LB models and the derivation and analysis of LGCA models ranging from the classical example dynamics of fluid flow to clotting phenomena in cerebral aneurysms and the invasion of tumour cells
Abstract. A new cellular-automaton model for fluid dynamics is introduced in this paper, that focus ...
Note:The Lattice Gas Cellular Automata method is a useful approximation for modeling fluids. It deal...
AbstractModelling the hydrodynamics of gas/solid flow is important for the design and scale-up of fl...
Lattice-gas cellular automata (LGCA) and lattice Boltzmann models (LBM) are relatively new and promi...
Cancer invasion may be viewed as collective phenomenon emerging from the interplay of individual bio...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
AbstractCancer invasion is the process of cells detaching from a primary tumor and infiltrating the ...
The lattice gas automata (LGA) technique as an alternative to the partial differential equation (PDE...
In the last decades the Lattice Boltzmann method (LB) has been successfully used to simulate a varie...
The concepts of local temperature and local thermal equilibrium are introduced in the context of lat...
Cellular automata (CA) and lattice Boltzmann (LB) approaches are computational methods that offer fl...
The dynamics of deformable liquid-filled bodies (e.g. droplets, capsules, lipid vesicles) suspended ...
The dynamics of deformable liquid-filled bodies (e.g., droplets, capsules, lipid vesicles) suspended...
International audienceAgent-based models (ABMs) of multicellular systems are models in which each ce...
Lattice Boltzmann models have a remarkable ability to simulate single- and multi-phase fluids and tr...
Abstract. A new cellular-automaton model for fluid dynamics is introduced in this paper, that focus ...
Note:The Lattice Gas Cellular Automata method is a useful approximation for modeling fluids. It deal...
AbstractModelling the hydrodynamics of gas/solid flow is important for the design and scale-up of fl...
Lattice-gas cellular automata (LGCA) and lattice Boltzmann models (LBM) are relatively new and promi...
Cancer invasion may be viewed as collective phenomenon emerging from the interplay of individual bio...
In recent years, discrete approaches have been widely used in mathematical modeling of physicochemic...
AbstractCancer invasion is the process of cells detaching from a primary tumor and infiltrating the ...
The lattice gas automata (LGA) technique as an alternative to the partial differential equation (PDE...
In the last decades the Lattice Boltzmann method (LB) has been successfully used to simulate a varie...
The concepts of local temperature and local thermal equilibrium are introduced in the context of lat...
Cellular automata (CA) and lattice Boltzmann (LB) approaches are computational methods that offer fl...
The dynamics of deformable liquid-filled bodies (e.g. droplets, capsules, lipid vesicles) suspended ...
The dynamics of deformable liquid-filled bodies (e.g., droplets, capsules, lipid vesicles) suspended...
International audienceAgent-based models (ABMs) of multicellular systems are models in which each ce...
Lattice Boltzmann models have a remarkable ability to simulate single- and multi-phase fluids and tr...
Abstract. A new cellular-automaton model for fluid dynamics is introduced in this paper, that focus ...
Note:The Lattice Gas Cellular Automata method is a useful approximation for modeling fluids. It deal...
AbstractModelling the hydrodynamics of gas/solid flow is important for the design and scale-up of fl...