Current approaches to parameter estimation and model invalidation are often inappropriate for biochemical reaction networks. This is because often only noisy measurements and sparse experimental data is available, and since they do not take the special structure of biochemical reaction networks into account. In this work a new method to prove model invalidity and to estimate parameters is introduced. It is based on a certificate of non-existence of feasible parameterizations for a given models. This is done by reformulating the model invalidation task into a set-based feasibility problem. As shown, due to the polynomial structure of many biochemical reaction systems, it is possible to relax the non-convex feasibility problem into a semidefini...
peer reviewedEstimation of kinetic parameters is a key step in modelling, as direct measurements are...
The estimation of parameter values (model calibration) is the bottleneck of the computational analys...
Background: Very frequently the same biological system is described by several, sometimes competi...
Current approaches to parameter estimation and model invalidation are often inappropriate for bioche...
Background Mathematical modeling and analysis have become, for the study of biological and cellular...
Dynamic models formulated as a set of ordinary differential equations provide a detailed description...
One of the most challenging tasks in systems biology is parameter identification from experimental d...
AbstractThe stochastic dynamics of biochemical reaction networks can be modeled using a number of su...
The stochastic dynamics of biochemical reaction networks can be modeled using a number of succinct f...
The stochastic dynamics of biochemical reaction networks can be modeled using a number of succinct f...
In this paper we consider the question of parameter identifiability for biochemical reaction networ...
Model checking has historically been an important tool to verify models of a wide variety of system...
In technical chemistry, systems biology and biotechnology, the construction of predictive models has...
Parameter perturbations in dynamical models of biochemical networks affect the qualitative dynamical...
This paper proposes a set-based parameter identification method for biochemical systems. The develop...
peer reviewedEstimation of kinetic parameters is a key step in modelling, as direct measurements are...
The estimation of parameter values (model calibration) is the bottleneck of the computational analys...
Background: Very frequently the same biological system is described by several, sometimes competi...
Current approaches to parameter estimation and model invalidation are often inappropriate for bioche...
Background Mathematical modeling and analysis have become, for the study of biological and cellular...
Dynamic models formulated as a set of ordinary differential equations provide a detailed description...
One of the most challenging tasks in systems biology is parameter identification from experimental d...
AbstractThe stochastic dynamics of biochemical reaction networks can be modeled using a number of su...
The stochastic dynamics of biochemical reaction networks can be modeled using a number of succinct f...
The stochastic dynamics of biochemical reaction networks can be modeled using a number of succinct f...
In this paper we consider the question of parameter identifiability for biochemical reaction networ...
Model checking has historically been an important tool to verify models of a wide variety of system...
In technical chemistry, systems biology and biotechnology, the construction of predictive models has...
Parameter perturbations in dynamical models of biochemical networks affect the qualitative dynamical...
This paper proposes a set-based parameter identification method for biochemical systems. The develop...
peer reviewedEstimation of kinetic parameters is a key step in modelling, as direct measurements are...
The estimation of parameter values (model calibration) is the bottleneck of the computational analys...
Background: Very frequently the same biological system is described by several, sometimes competi...