2009
DOI: 10.4204/eptcs.6.3
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BioDiVinE: A Framework for Parallel Analysis of Biological Models

Abstract: In this paper a novel tool BioDiVinE for parallel analysis of biological models is presented. The tool allows analysis of biological models specified in terms of a set of chemical reactions. Chemical reactions are transformed into a system of multi-affine differential equations. BioDiVinE employs techniques for finite discrete abstraction of the continuous state space. At that level, parallel analysis algorithms based on model checking are provided. In the paper, the key tool features are described and their a… Show more

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Cited by 11 publications
(3 citation statements)
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“…BioDiVinE is a tool for parallel study and analysis of biological systems. The tool analyzes the model based on its chemical reactions, through the following main features: (a) the specificity of models according to their chemical equations through the user interface, (b) the representation of models based on the various ordinary differential equations (ODEs), (c) adjustment of the initial kinetic parameters and conditions, (d) regulation of the discrete abstraction parameters, (e) graphic simulation of model's discrete stages and (f) model controlling [13].…”
Section: Biological Systems and Computational Tools In Systems Biologymentioning
confidence: 99%
“…BioDiVinE is a tool for parallel study and analysis of biological systems. The tool analyzes the model based on its chemical reactions, through the following main features: (a) the specificity of models according to their chemical equations through the user interface, (b) the representation of models based on the various ordinary differential equations (ODEs), (c) adjustment of the initial kinetic parameters and conditions, (d) regulation of the discrete abstraction parameters, (e) graphic simulation of model's discrete stages and (f) model controlling [13].…”
Section: Biological Systems and Computational Tools In Systems Biologymentioning
confidence: 99%
“…The application of model checking to systems biology has targeted both modeling frameworks. BIOCHAM [18], GNA [15], BioDIVINE [10] are examples of tools providing LTL/CTL model-checking functionalities for the verification of qualitative properties of biological models represented by means of differential equations. Conversely, PRISM [31], MARCIE [35] are examples of tools featuring Continuos Stochastic Logic (CSL) [6] model-checking for the verification of quantitative properties of continuous-time Markov chains (CTMC) models of biological systems.…”
Section: Introductionmentioning
confidence: 99%
“…model checking [10]) proved to be valuable instruments for a more expressive analysis of stochastic biological models [21,4,5]. Biologically relevant events can be formally characterised as temporal logic formulae that can then be automatically checked against a discrete state model.…”
Section: Introductionmentioning
confidence: 99%