Recent multiscale applications require more and more often the coupling of many sub-models, usually originating form different fields of science. Therefore, it is increasingly important to propose an effective description language that can help scientists with different background to co-develop a multiscale application. We propose a Multiscale Modeling Language (MML) i.e. a description language aiming at specifying the architecture of a multiscale simulation program. We will illustrate this approach by proposing a MML description of a computer model for restenosis in a stented vessel
We argue that, despite the fact that the field of multiscale modelling and simulation has enjoyed si...
Computer-aided multiscale modelling (CAMM) may be carried out in three consecutive stages, namely co...
Many important scientific problems are inherently multi scale. This is, for instance, the case in mo...
AbstractRecent multiscale applications require more and more often the coupling of many sub-models, ...
Nature is observed at all scales; with multiscale modeling, scientists bring together several scales...
AbstractNature is observed at all scales; with multiscale modeling, scientists bring together severa...
Multiscale Modelling and Simulation (MMS) is a cornerstone in today's research in computational scie...
Multiscale Modelling and Simulation (MMS) is a cornerstone in the today's research in computational ...
Inherently complex problems from many scientific disciplines require a multiscale modeling approach....
We introduce a software tool to simulate multiscale models: the Multiscale Coupling Library and Envi...
We review a methodology to design, implement and execute multi-scale and multi-science numerical sim...
AbstractMultiscale Modelling and Simulation (MMS) is a cornerstone in the today's research in comput...
In recent years we have seen an explosive growth of activities in multiscale modeling and computatio...
Creating an effective environment for collaborative spatio-temporal model development will require c...
Multiscale models combine knowledge, data, and hypotheses from different scales. Simulating a multis...
We argue that, despite the fact that the field of multiscale modelling and simulation has enjoyed si...
Computer-aided multiscale modelling (CAMM) may be carried out in three consecutive stages, namely co...
Many important scientific problems are inherently multi scale. This is, for instance, the case in mo...
AbstractRecent multiscale applications require more and more often the coupling of many sub-models, ...
Nature is observed at all scales; with multiscale modeling, scientists bring together several scales...
AbstractNature is observed at all scales; with multiscale modeling, scientists bring together severa...
Multiscale Modelling and Simulation (MMS) is a cornerstone in today's research in computational scie...
Multiscale Modelling and Simulation (MMS) is a cornerstone in the today's research in computational ...
Inherently complex problems from many scientific disciplines require a multiscale modeling approach....
We introduce a software tool to simulate multiscale models: the Multiscale Coupling Library and Envi...
We review a methodology to design, implement and execute multi-scale and multi-science numerical sim...
AbstractMultiscale Modelling and Simulation (MMS) is a cornerstone in the today's research in comput...
In recent years we have seen an explosive growth of activities in multiscale modeling and computatio...
Creating an effective environment for collaborative spatio-temporal model development will require c...
Multiscale models combine knowledge, data, and hypotheses from different scales. Simulating a multis...
We argue that, despite the fact that the field of multiscale modelling and simulation has enjoyed si...
Computer-aided multiscale modelling (CAMM) may be carried out in three consecutive stages, namely co...
Many important scientific problems are inherently multi scale. This is, for instance, the case in mo...