Quantitative dynamical models facilitate the understanding of biological processes and the prediction of their dynamics. These models usually comprise unknown parameters, which have to be inferred from experimental data. For quantitative experimental data, there are several methods and software tools available. However, for qualitative data the available approaches are limited and computationally demanding. Here, we consider the optimal scaling method which has been developed in statistics for categorical data and has been applied to dynamical systems. This approach turns qualitative variables into quantitative ones, accounting for constraints on their relation. We derive a reduced formulation for the optimization problem defining the optim...
AbstractModeling an experimental system often results in a number of alternative models that are all...
Motivation: Mathematical models are nowadays important tools for analyzing dynamics of cellular proc...
Background: Kinetic models of biochemical systems usually consist of ordinary differential equations...
This archive contains Supplementary code to the manuscript Parameterization of mechanistic models fr...
Due to the high complexity of biological data it is difficult to disentangle cellular processes rely...
Due to the high complexity of biological data it is difficult to disentangle cellular processes rely...
International audienceQuantitative models in Systems Biology depend on a large number of free parame...
One of the central elements in systems biology is the interaction between mathematical modeling and ...
25 páginas, 10 figuras, 2 tablas.-- This article is distributed under the terms of the Creative Comm...
Whether it is the signaling mechanisms behind immune cells or the change in animal populations, mech...
The human body is composed of a large collection of cells,\the building blocks of life". In each cel...
This thesis is concerned with drawing out high-level insight from otherwise complex mathematical mod...
Ordinary differential equation (ODE) models are often used to quantitatively describe and predict th...
Ordinary differential equation models have become a standard tool for the mechanistic description of...
peer reviewedEstimation of kinetic parameters is a key step in modelling, as direct measurements are...
AbstractModeling an experimental system often results in a number of alternative models that are all...
Motivation: Mathematical models are nowadays important tools for analyzing dynamics of cellular proc...
Background: Kinetic models of biochemical systems usually consist of ordinary differential equations...
This archive contains Supplementary code to the manuscript Parameterization of mechanistic models fr...
Due to the high complexity of biological data it is difficult to disentangle cellular processes rely...
Due to the high complexity of biological data it is difficult to disentangle cellular processes rely...
International audienceQuantitative models in Systems Biology depend on a large number of free parame...
One of the central elements in systems biology is the interaction between mathematical modeling and ...
25 páginas, 10 figuras, 2 tablas.-- This article is distributed under the terms of the Creative Comm...
Whether it is the signaling mechanisms behind immune cells or the change in animal populations, mech...
The human body is composed of a large collection of cells,\the building blocks of life". In each cel...
This thesis is concerned with drawing out high-level insight from otherwise complex mathematical mod...
Ordinary differential equation (ODE) models are often used to quantitatively describe and predict th...
Ordinary differential equation models have become a standard tool for the mechanistic description of...
peer reviewedEstimation of kinetic parameters is a key step in modelling, as direct measurements are...
AbstractModeling an experimental system often results in a number of alternative models that are all...
Motivation: Mathematical models are nowadays important tools for analyzing dynamics of cellular proc...
Background: Kinetic models of biochemical systems usually consist of ordinary differential equations...