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One file to share them all: Using the COMBINE Archive and the OMEX format to share all information about a modeling project

Authors :
Miller, Andrew
Novère, Nicolas
Yvon, Florent
Waltemath, Dagmar
Soiland-Reyes, Stian
Scharm, Martin
Sauro, Herbert
Rodriguez, Nicolas
Olivier, Brett
Nickerson, David
Laibe, Camille
Hucka, Michael
Golebiewski, Martin
Glont, Mihai
Cooper, Jonathan
Moodie, Stuart
Adams, Richard
Bergmann, Frank

Abstract

Background: With the ever increasing use of computational models in the biosciences, the need to share models and reproduce the results of published studies efficiently and easily is becoming more important. To this end, various standards have been proposed that can be used to describe models, simulations, data or other essential information in a consistent fashion. These constitute various separate components required to reproduce a given published scientific result. Results: We describe the Open Modeling EXchange format (OMEX). Together with the use of other standard formats from the Computational Modeling in Biology Network (COMBINE), OMEX is the basis of the COMBINE Archive, a single file that supports the exchange of all the information necessary for a modeling and simulation experiment in biology. An OMEX file is a ZIP container that includes a manifest file, listing the content of the archive, an optional metadata file adding information about the archive and its content, and the files describing the model. The content of a COMBINE Archive consists of files encoded in COMBINE standards whenever possible, but may include additional files defined by an Internet Media Type. Several tools that support the COMBINE Archive are available, either as independent libraries or embedded in modeling software. Conclusions: The COMBINE Archive facilitates the reproduction of modeling and simulation experiments in biology by embedding all the relevant information in one file. Having all the information stored and exchanged at once also helps in building activity logs and audit trails. We anticipate that the COMBINE Archive will become a significant help for modellers, as the domain moves to larger, more complex experiments such as multi-scale models of organs, digital organisms, and bioengineering.<br />3 figures, 1 table

Details

Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....d7a66ec266dd85889f3115562fe77ff7