We define BioScapeL, a stochastic pi-calculus in 3D-space. A novel aspect of BioScapeL is that entities have programmable locations. The programmer can specify a particular location where to place an entity, or a location relative to the current location of the entity. The motivation for the ex-tension comes from the need to describe the evolution of populations of biochemical species in space, while keeping a sufficiently high level description, so that phenomena like diffusion, collision, and confinement can remain part of the semantics of the calculus. Combined with the random diffusion movement inherited from BioScape, programmable locations allow us to capture the assemblies of configurations of polymers, oligomers, and complexes such ...
Abstract BioScape P , a probabilistic version of BioScape, is a new modeling language for a state-de...
AbstractNumerous programming languages based on process calculi have been developed for biological m...
Numerous programming languages based on process calculi have been develo-ped for biological modellin...
AbstractWe design BioScape, a concurrent language for the stochastic simulation of biological and bi...
We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materi...
AbstractBiomolecular systems, composed of networks of proteins, underlie the major functions of livi...
BioScape is a concurrent language motivated by the biological landscapes found at the interface of b...
AbstractThe Calculus of Looping Sequences (CLS) enables the description of biological systems and of...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
This paper presents Spatial CLS, an extension of the Calculus of Looping Sequences (CLS) with spatia...
AbstractSpatial dynamics receive increasing attention in Systems Biology and require suitable modeli...
We present a bio-inspired calculus for describing 3D shapes moving in a space. A shape forms a 3D pr...
We introduce the main concepts of a bio-inspired calculus for describing 3D shapes moving in a space...
Abstract. We introduce the main concepts of a bio-inspired calculus for describing 3D shapes moving ...
Motivation: Many biochemical networks involve reactions localized on the cell membrane. This can gi...
Abstract BioScape P , a probabilistic version of BioScape, is a new modeling language for a state-de...
AbstractNumerous programming languages based on process calculi have been developed for biological m...
Numerous programming languages based on process calculi have been develo-ped for biological modellin...
AbstractWe design BioScape, a concurrent language for the stochastic simulation of biological and bi...
We design BioScape, a concurrent language for the stochastic simulation of biological and bio-materi...
AbstractBiomolecular systems, composed of networks of proteins, underlie the major functions of livi...
BioScape is a concurrent language motivated by the biological landscapes found at the interface of b...
AbstractThe Calculus of Looping Sequences (CLS) enables the description of biological systems and of...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
This paper presents Spatial CLS, an extension of the Calculus of Looping Sequences (CLS) with spatia...
AbstractSpatial dynamics receive increasing attention in Systems Biology and require suitable modeli...
We present a bio-inspired calculus for describing 3D shapes moving in a space. A shape forms a 3D pr...
We introduce the main concepts of a bio-inspired calculus for describing 3D shapes moving in a space...
Abstract. We introduce the main concepts of a bio-inspired calculus for describing 3D shapes moving ...
Motivation: Many biochemical networks involve reactions localized on the cell membrane. This can gi...
Abstract BioScape P , a probabilistic version of BioScape, is a new modeling language for a state-de...
AbstractNumerous programming languages based on process calculi have been developed for biological m...
Numerous programming languages based on process calculi have been develo-ped for biological modellin...