Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population scales. Multiscale processes provide challenges when they are to be simulated using numerical techniques. While coarser methods such as partial differential equations are typically fast to simulate, they lack the individual-level detail that may be required in regions of low concentration or small spatial scale. However, to simulate at such an individual level throughout a domain and in regions where concentrations are high can be computationally expensive. Spatially coupled hybrid methods provide a bridge, allowing for multiple representations of the same species in one spatial domain by partitioning space into distinct modelling subdomains. ...
Spatial reaction-diffusion models have been employed to describe many emergent phenomena in biologic...
Abstract. Many subsurface flow and transport problems of importance today involve coupled non-linear...
Multiscale techniques bridge what is often mutually excluding in computer models: accuracy and effic...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Spatial distributions characterize the evolution of reaction-diffusion models of several physical, c...
Cells are highly organized objects containing millions of molecules. Each biomolecule has a specific...
Cells are highly organized objects containing millions of molecules. Each biomolecule has a specifi...
Spatial reaction-diffusion models have been employed to describe many emergent phenomena in biologic...
Abstract. Many subsurface flow and transport problems of importance today involve coupled non-linear...
Multiscale techniques bridge what is often mutually excluding in computer models: accuracy and effic...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Many biological and physical systems exhibit behaviour at multiple spatial, temporal or population s...
Spatial distributions characterize the evolution of reaction-diffusion models of several physical, c...
Cells are highly organized objects containing millions of molecules. Each biomolecule has a specific...
Cells are highly organized objects containing millions of molecules. Each biomolecule has a specifi...
Spatial reaction-diffusion models have been employed to describe many emergent phenomena in biologic...
Abstract. Many subsurface flow and transport problems of importance today involve coupled non-linear...
Multiscale techniques bridge what is often mutually excluding in computer models: accuracy and effic...