AbstractThe simulation and visualization of biological system models is becoming more and more important both in clinical use and in basic research. Since many systems are characterized by interactions involving different scales at the same time, several approaches have been defined to handle such complex systems at different spatial and temporal scale. In this context, we propose BioShape, a 3D particle-based spatial simulator whose novelty consists of providing a uniform and geometry-oriented multiscale modeling environment. These features make BioShape “scaleindependent”, able to express geometric and positional information, and able to support transformations between scales simply defined as mappings between different granularity model ...
We present a bio-inspired calculus for describing 3D shapes moving in a space. A shape forms a 3D pr...
International audienceExecutable biology at various levels of spatial scale is becoming increasingly...
Existing approaches in multiscale (MS) science and engineering have evolved from a range of ideas an...
AbstractThe simulation and visualization of biological system models is becoming more and more impor...
The simulation and visualization of biological system models is becoming more and more important bot...
Many biological phenomena are inherently multiscale, i.e. they are characterised by interactions in-...
BioShape [1, 2] is a uniform, particle-based, 3D space- and geometry-oriented multiscale modelling a...
We present BioShape, a modeling and simulation environment for biological systems at different scale...
Many biological phenomena are inherently multiscale, i.e. they are characterised by interactions inv...
Many biological phenomena are inherently multiscale (MS) - i.e. they are characterised by interactio...
AbstractMany biological phenomena are inherently multiscale, i.e. they are characterised by interact...
The simulation and visualization of biological system models are becoming more and more important, i...
Bone remodelling, as many biological phenomena, is inherently multi-scale, i.e. it is characterised...
We present a bio-inspired calculus for describing 3D shapes moving in a space. A shape forms a 3D pr...
International audienceExecutable biology at various levels of spatial scale is becoming increasingly...
Existing approaches in multiscale (MS) science and engineering have evolved from a range of ideas an...
AbstractThe simulation and visualization of biological system models is becoming more and more impor...
The simulation and visualization of biological system models is becoming more and more important bot...
Many biological phenomena are inherently multiscale, i.e. they are characterised by interactions in-...
BioShape [1, 2] is a uniform, particle-based, 3D space- and geometry-oriented multiscale modelling a...
We present BioShape, a modeling and simulation environment for biological systems at different scale...
Many biological phenomena are inherently multiscale, i.e. they are characterised by interactions inv...
Many biological phenomena are inherently multiscale (MS) - i.e. they are characterised by interactio...
AbstractMany biological phenomena are inherently multiscale, i.e. they are characterised by interact...
The simulation and visualization of biological system models are becoming more and more important, i...
Bone remodelling, as many biological phenomena, is inherently multi-scale, i.e. it is characterised...
We present a bio-inspired calculus for describing 3D shapes moving in a space. A shape forms a 3D pr...
International audienceExecutable biology at various levels of spatial scale is becoming increasingly...
Existing approaches in multiscale (MS) science and engineering have evolved from a range of ideas an...