We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN) with semantics based on ordinary differential equations. Forward CRN bisimulation identifies a partition where each equivalence class represents the exact sum of the concentrations of the species belonging to that class. Backward CRN bisimulation relates species that have identical solutions at all time points when starting from the same initial conditions. Both notions can be checked using only CRN syntactical information, i.e., by inspection of the set of reactions. We provide a unified algorithm that computes the coarsest refinement up to our bisimulations in polynomial time. Further, we give algorithms to compute quotient CRNs induced b...
We study chemical reaction networks (CRNs) as a kernel language for concurrency models with semantic...
International audienceWe study binomiality of the steady state ideals of chemical reaction networks....
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
The Chemical Reaction Network (CRN) model is a language designed to describe the behavior of chemica...
Efforts in programming DNA and other biological molecules have recently focused on general schemes t...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
Efforts in programming DNA and other biological molecules have recently focused on general schemes t...
In chemical reaction networks (CRNs) with stochastic semantics based on continuous-time Markov chain...
We study chemical reaction networks (CRNs) as a kernel language for concurrency models with semantic...
Abstract. We present a technique for the automatic reduction of chemical re-action networks (CRNs). ...
We study chemical reaction networks (CRNs) as a kernel model of concurrency provided with semantics ...
We study chemical reaction networks (CRNs) as a kernel language for concurrency models with semantic...
We study chemical reaction networks (CRNs) as a kernel language for concurrency models with semantic...
International audienceWe study binomiality of the steady state ideals of chemical reaction networks....
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
The Chemical Reaction Network (CRN) model is a language designed to describe the behavior of chemica...
Efforts in programming DNA and other biological molecules have recently focused on general schemes t...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
Efforts in programming DNA and other biological molecules have recently focused on general schemes t...
In chemical reaction networks (CRNs) with stochastic semantics based on continuous-time Markov chain...
We study chemical reaction networks (CRNs) as a kernel language for concurrency models with semantic...
Abstract. We present a technique for the automatic reduction of chemical re-action networks (CRNs). ...
We study chemical reaction networks (CRNs) as a kernel model of concurrency provided with semantics ...
We study chemical reaction networks (CRNs) as a kernel language for concurrency models with semantic...
We study chemical reaction networks (CRNs) as a kernel language for concurrency models with semantic...
International audienceWe study binomiality of the steady state ideals of chemical reaction networks....
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...