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Topological computation of activity regions

Topological computation of activity regions Topological Computation of Activity Regions Work in Progress Paper Martin Potier U-PEC - LACL 61 avenue du Gal de Gaulle 94010 Créteil Cedex Antoine Spicher U-PEC - LACL 61 avenue du Gal de Gaulle 94010 Créteil Cedex Olivier Michel U-PEC - LACL 61 avenue du Gal de Gaulle 94010 Créteil Cedex martin.potier@u-pec.fr antoine.spicher@u-pec.fr olivier.michel@u-pec.fr ABSTRACT Most of the frameworks and languages available in the field of modeling and simulation of dynamical systems focus on the specification of the state of the system and its transition function. Although we believe that this task has been elegantly solved by the design of the rule-based topological programming language MGS, an interesting challenge remains in the computation of the activity, and its topology, exhibited by their discrete event simulation. This additional information can help in optimizing, analyzing and modeling complex systems. Categories and Subject Descriptors D.1.1 [Programming Techniques]: Applicative (Functional) Programming; F.4.2 [Mathematical Logic and Formal Languages]: Grammars and Other Rewriting Systems--Parallel rewriting systems General Terms Algorithms, Theory, Language Keywords Activity tracking, MGS programming language, spatial computing, rule-based modeling and simulation, topology of interactions 1. INTRODUCTION Complex simulation models consist of a large number of interacting parts. In common modeling tools and http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png

Topological computation of activity regions

Association for Computing Machinery — May 19, 2013

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References (13)

Datasource
Association for Computing Machinery
Copyright
Copyright © 2013 by ACM Inc.
ISBN
978-1-4503-1920-1
doi
10.1145/2486092.2486136
Publisher site
See Article on Publisher Site

Abstract

Topological Computation of Activity Regions Work in Progress Paper Martin Potier U-PEC - LACL 61 avenue du Gal de Gaulle 94010 Créteil Cedex Antoine Spicher U-PEC - LACL 61 avenue du Gal de Gaulle 94010 Créteil Cedex Olivier Michel U-PEC - LACL 61 avenue du Gal de Gaulle 94010 Créteil Cedex martin.potier@u-pec.fr antoine.spicher@u-pec.fr olivier.michel@u-pec.fr ABSTRACT Most of the frameworks and languages available in the field of modeling and simulation of dynamical systems focus on the specification of the state of the system and its transition function. Although we believe that this task has been elegantly solved by the design of the rule-based topological programming language MGS, an interesting challenge remains in the computation of the activity, and its topology, exhibited by their discrete event simulation. This additional information can help in optimizing, analyzing and modeling complex systems. Categories and Subject Descriptors D.1.1 [Programming Techniques]: Applicative (Functional) Programming; F.4.2 [Mathematical Logic and Formal Languages]: Grammars and Other Rewriting Systems--Parallel rewriting systems General Terms Algorithms, Theory, Language Keywords Activity tracking, MGS programming language, spatial computing, rule-based modeling and simulation, topology of interactions 1. INTRODUCTION Complex simulation models consist of a large number of interacting parts. In common modeling tools and

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