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ICALP
2004
Springer

Linear and Branching Metrics for Quantitative Transition Systems

14 years 5 months ago
Linear and Branching Metrics for Quantitative Transition Systems
Abstract. We extend the basic system relations of trace inclusion, trace equivalence, simulation, and bisimulation to a quantitative setting in which propositions are interpreted not as boolean values, but as real values in the interval [0,1]. Trace inclusion and equivalence give rise to asymmetrical and symmetrical linear distances, while simulation and bisimulation give rise to asymmetrical and symmetrical branching distances. We study the relationships among these distances, and we provide a full logical characterization of the distances in terms of quantitative versions of LTL and µ-calculus. We show that, while trace inclusion (resp. equivalence) coincides with simulation (resp. bisimulation) for deterministic boolean transition systems, linear and branching distances do not coincide for deterministic quantitative transition systems. Finally, we provide algorithms for computing the distances, together with matching lower and upper complexity bounds.
Luca de Alfaro, Marco Faella, Mariëlle Stoeli
Added 01 Jul 2010
Updated 01 Jul 2010
Type Conference
Year 2004
Where ICALP
Authors Luca de Alfaro, Marco Faella, Mariëlle Stoelinga
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