International audienceWe propose React(C), an expressive programming language for stochastic modeling and simulation in systems biology, that is based on biochemical reactions with constraints. We prove that React(C) can express the stochastic pi-calculus, in contrast to previous rule-based programming languages, and further illustrate the high expressiveness of React(C). We present a stochastic simulator for React(C) independently of the choice of the constraint language C. Our simulator must decide for a given reaction rule whether it can be applied to the current biochemical solution. We show that this decision problem is NP-complete for arbitrary constraint systems C, and that it can be solved in polynomial time for rules of bounded ari...
International audienceWe present the attributed $\pi$-calculus for modeling concurrent systems with ...
We report on a technique for modelling biological systems based on the ntcc calculus, a model of co...
AbstractWe tackle the problem of relating models of systems (mainly biological systems) based on sto...
International audienceWe propose React(C), an expressive programming language for stochastic modelin...
Abstract. We propose React(C), an expressive programming language for stochastic modeling and simula...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
A critical aspect in the modeling of biological systems is the description view point. On the one ha...
AbstractThe nanoκ calculus is a formalism that models biochemical systems by defining its set of rea...
Biochemical reactions are often modelled as discrete-state continuous-time stochastic processes evol...
AbstractIn this work an extension of stochastic π-calculus with biological transactions is presented...
AbstractIn this work an extension of stochastic π-calculus with biological transactions is presented...
We tackle the problem of relating models of systems (mainly biological systems) based on stochastic ...
Biochemical systems have been influenced, altered, and engineered to produce a myriad of complex beh...
An increasing number of researchers is trying to define models of biochemical pathways via theoretic...
International audienceWe present the attributed $\pi$-calculus for modeling concurrent systems with ...
We report on a technique for modelling biological systems based on the ntcc calculus, a model of co...
AbstractWe tackle the problem of relating models of systems (mainly biological systems) based on sto...
International audienceWe propose React(C), an expressive programming language for stochastic modelin...
Abstract. We propose React(C), an expressive programming language for stochastic modeling and simula...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
A critical aspect in the modeling of biological systems is the description view point. On the one ha...
AbstractThe nanoκ calculus is a formalism that models biochemical systems by defining its set of rea...
Biochemical reactions are often modelled as discrete-state continuous-time stochastic processes evol...
AbstractIn this work an extension of stochastic π-calculus with biological transactions is presented...
AbstractIn this work an extension of stochastic π-calculus with biological transactions is presented...
We tackle the problem of relating models of systems (mainly biological systems) based on stochastic ...
Biochemical systems have been influenced, altered, and engineered to produce a myriad of complex beh...
An increasing number of researchers is trying to define models of biochemical pathways via theoretic...
International audienceWe present the attributed $\pi$-calculus for modeling concurrent systems with ...
We report on a technique for modelling biological systems based on the ntcc calculus, a model of co...
AbstractWe tackle the problem of relating models of systems (mainly biological systems) based on sto...