Simulation and Verification in a Process Calculus for Spatially-Explicit Ecological Models
We propose PALPS, a Process Algebra with Locations for Population Systems. PALPS allows us to produce spatially-explicit individual-based ecological models and to reason about their behavior. PALPS has two abstraction levels: At the first level, we may define the behavior of an individual of a popul...
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Alexandru Ioan Cuza University of Iasi
2013-06-01
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| Series: | Scientific Annals of Computer Science |
| Online Access: | http://www.info.uaic.ro/bin/download/Annals/XXIII1/XXIII1_3.pdf |
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doaj-21cc8e85f6cb48768f9b5b306529e2de2020-11-25T01:58:18ZengAlexandru Ioan Cuza University of IasiScientific Annals of Computer Science1843-81212248-26952013-06-01XXIII111916710.7561/SACS.2013.1.119Simulation and Verification in a Process Calculus for Spatially-Explicit Ecological ModelsA. PhilippouM. ToroM. AntonakiWe propose PALPS, a Process Algebra with Locations for Population Systems. PALPS allows us to produce spatially-explicit individual-based ecological models and to reason about their behavior. PALPS has two abstraction levels: At the first level, we may define the behavior of an individual of a population and, at the second level, we may specify a system as the collection of individuals of various species located in space. In PALPS, the individuals move through their life cycle while changing their location and interact with each other in various ways such as predation, infection or mating. Furthermore, we propose a translation of a subset of PALPS into the probabilistic model checker PRISM. We illustrate our framework via models of dispersal in metapopulations and by applying PRISM on PALPS models for verifying temporal logic properties and conducting reachability and steady-state analysis.http://www.info.uaic.ro/bin/download/Annals/XXIII1/XXIII1_3.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
A. Philippou M. Toro M. Antonaki |
| spellingShingle |
A. Philippou M. Toro M. Antonaki Simulation and Verification in a Process Calculus for Spatially-Explicit Ecological Models Scientific Annals of Computer Science |
| author_facet |
A. Philippou M. Toro M. Antonaki |
| author_sort |
A. Philippou |
| title |
Simulation and Verification in a Process Calculus for Spatially-Explicit Ecological Models |
| title_short |
Simulation and Verification in a Process Calculus for Spatially-Explicit Ecological Models |
| title_full |
Simulation and Verification in a Process Calculus for Spatially-Explicit Ecological Models |
| title_fullStr |
Simulation and Verification in a Process Calculus for Spatially-Explicit Ecological Models |
| title_full_unstemmed |
Simulation and Verification in a Process Calculus for Spatially-Explicit Ecological Models |
| title_sort |
simulation and verification in a process calculus for spatially-explicit ecological models |
| publisher |
Alexandru Ioan Cuza University of Iasi |
| series |
Scientific Annals of Computer Science |
| issn |
1843-8121 2248-2695 |
| publishDate |
2013-06-01 |
| description |
We propose PALPS, a Process Algebra with Locations for Population Systems. PALPS allows us to produce spatially-explicit individual-based ecological models and to reason about their behavior. PALPS has two abstraction levels: At the first level, we may define the behavior of an individual of a population and, at the second level, we may specify a system as the collection of individuals of various species located in space. In PALPS, the individuals move through their life cycle while changing their location and interact with each other in various ways such as predation, infection or mating. Furthermore, we propose a translation of a subset of PALPS into the probabilistic model checker PRISM. We illustrate our framework via models of dispersal in metapopulations and by applying PRISM on PALPS models for verifying temporal logic properties and conducting reachability and steady-state analysis. |
| url |
http://www.info.uaic.ro/bin/download/Annals/XXIII1/XXIII1_3.pdf |
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AT aphilippou simulationandverificationinaprocesscalculusforspatiallyexplicitecologicalmodels AT mtoro simulationandverificationinaprocesscalculusforspatiallyexplicitecologicalmodels AT mantonaki simulationandverificationinaprocesscalculusforspatiallyexplicitecologicalmodels |
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