AbstractWe design BioScape, a concurrent language for the stochastic simulation of biological and bio-materials processes in a reactive environment in 3D space. BioScape is based on the Stochastic Pi-Calculus, and it is motivated by the need for individual-based, continuous motion, and continuous space simulation in modeling complex bacteria-materials interactions. Our driving example is a bio-triggered drug delivery system for infection-resistant medical implants. Our models in BioScape will help in identifying biological targets and materials strategies to treat biomaterials associated bacterial infections.The novel aspects of BioScape include syntactic primitives to declare the scope in space where species can move, diffusion rate, shape...
AbstractNumerous programming languages based on process calculi have been developed for biological m...
International audienceNumerous programming languages based on process calculi have been developed fo...
Many biological phenomena are inherently multiscale, i.e. they are characterised by interactions in-...
We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materi...
AbstractWe design BioScape, a concurrent language for the stochastic simulation of biological and bi...
BioScape is a concurrent language motivated by the biological landscapes found at the interface of b...
none6siBioScape is a concurrent language motivated by the biological landscapes found at the interfa...
Abstract BioScape P , a probabilistic version of BioScape, is a new modeling language for a state-de...
We present BioShape, a modeling and simulation environment for biological systems at different scale...
BioShape [1, 2] is a uniform, particle-based, 3D space- and geometry-oriented multiscale modelling a...
We define BioScapeL, a stochastic pi-calculus in 3D-space. A novel aspect of BioScapeL is that entit...
We have developed a method for modeling spatial stochastic biochemical reactions in complex, three-d...
We consider BioAmbients, a calculus for specifying biological entities and for simulating and analys...
We consider BioAmbients, a calculus for specifying biological entities and for simulating and analys...
Numerous programming languages based on process calculi have been develo-ped for biological modellin...
AbstractNumerous programming languages based on process calculi have been developed for biological m...
International audienceNumerous programming languages based on process calculi have been developed fo...
Many biological phenomena are inherently multiscale, i.e. they are characterised by interactions in-...
We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materi...
AbstractWe design BioScape, a concurrent language for the stochastic simulation of biological and bi...
BioScape is a concurrent language motivated by the biological landscapes found at the interface of b...
none6siBioScape is a concurrent language motivated by the biological landscapes found at the interfa...
Abstract BioScape P , a probabilistic version of BioScape, is a new modeling language for a state-de...
We present BioShape, a modeling and simulation environment for biological systems at different scale...
BioShape [1, 2] is a uniform, particle-based, 3D space- and geometry-oriented multiscale modelling a...
We define BioScapeL, a stochastic pi-calculus in 3D-space. A novel aspect of BioScapeL is that entit...
We have developed a method for modeling spatial stochastic biochemical reactions in complex, three-d...
We consider BioAmbients, a calculus for specifying biological entities and for simulating and analys...
We consider BioAmbients, a calculus for specifying biological entities and for simulating and analys...
Numerous programming languages based on process calculi have been develo-ped for biological modellin...
AbstractNumerous programming languages based on process calculi have been developed for biological m...
International audienceNumerous programming languages based on process calculi have been developed fo...
Many biological phenomena are inherently multiscale, i.e. they are characterised by interactions in-...