Add to ORKGThe faithful reproduction and accurate prediction of the phenotypes and emergent behaviors of complex cellular systems are among the most challenging goals in Systems Biology. Although mathematical models that describe the interactions among all biochemical processes in a cell are theoretically feasible, their simulation is generally hard because of a variety of reasons. For instance, many quantitative data (e.g., kinetic rates) are usually not available, a problem that hinders the execution of simulation algorithms as long as some parameter estimation methods are used. Though, even with a candidate parameterization, the simulation of mechanistic models could be challenging due to the extreme computational effort required. In this context, ...
International audienceThe theory of complex systems has become more and more relevant over the last ...
Motivation: Compartments and membranes are the basis of cell topology and more than 30 % of the huma...
Interest in the possibility of dynamically simulating complex cellular processes has escalated marke...
The faithful reproduction and accurate prediction of the phe-notypes and emergent behaviors of compl...
One of the fundamental motivations underlying computational cell biology is to gain insight into the...
Biological processes are inherently very complex and involve many unknown relation-ships and mechani...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
Modelling and simulation are at the heart of the rapidly developing field of systems biology. This p...
AbstractRecent technological and theoretical advances are only now allowing the simulation of detail...
The processes taking place inside the living cell are now understood to the point where predictive c...
To understand the behavior of biological systems we need to consider that they are made of populatio...
In the last decades, mathematical and computational models have become ubiquitous to the field of sy...
Science is an iterative process of experiments and hypotheses. Experiments produce surprising result...
iii In recent years technology has made possible more complex and CPU intensive simulations in the a...
Computational simulation of cellular processes can provide us with important insights into the dynam...
International audienceThe theory of complex systems has become more and more relevant over the last ...
Motivation: Compartments and membranes are the basis of cell topology and more than 30 % of the huma...
Interest in the possibility of dynamically simulating complex cellular processes has escalated marke...
The faithful reproduction and accurate prediction of the phe-notypes and emergent behaviors of compl...
One of the fundamental motivations underlying computational cell biology is to gain insight into the...
Biological processes are inherently very complex and involve many unknown relation-ships and mechani...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
Modelling and simulation are at the heart of the rapidly developing field of systems biology. This p...
AbstractRecent technological and theoretical advances are only now allowing the simulation of detail...
The processes taking place inside the living cell are now understood to the point where predictive c...
To understand the behavior of biological systems we need to consider that they are made of populatio...
In the last decades, mathematical and computational models have become ubiquitous to the field of sy...
Science is an iterative process of experiments and hypotheses. Experiments produce surprising result...
iii In recent years technology has made possible more complex and CPU intensive simulations in the a...
Computational simulation of cellular processes can provide us with important insights into the dynam...
International audienceThe theory of complex systems has become more and more relevant over the last ...
Motivation: Compartments and membranes are the basis of cell topology and more than 30 % of the huma...
Interest in the possibility of dynamically simulating complex cellular processes has escalated marke...