We investigate the suitability of statistical model checking for the analysis of probabilistic models of software product lines with complex quantitative constraints and advanced feature installation options. Such models are specified in the feature-oriented language QFLan, a rich process algebra whose operational behaviour interacts with a store of constraints, neatly separating product configuration from product behaviour. The resulting probabilistic configurations and behaviour converge seamlessly in a semantics based on DTMCs, thus enabling quantitative analyses ranging from the likelihood of certain behaviour to the expected average cost of products. This is supported by a Maude implementation of QFLan, integrated with the SMT solver Z...
QFLan offers modeling and analysis of highly reconfigurable systems, like product lines, which are c...
In a software product line (SPL), a collection of software products is defined by their commonalitie...
In (ter Beek et al., 2018), we introduce QFLan, a framework for quantitative modeling and analysis o...
We investigate the suitability of statistical model checking for the analysis of probabilistic model...
We investigate the suitability of statistical model checking for the analysis of probabilistic model...
International audienceWe report on the suitability of statistical model checking forthe analysis of ...
We report on the suitability of statistical model checking for the analysis of quantitative properti...
We investigate the suitability of statistical model checking techniques for analysing quantitative p...
We investigate the suitability of statistical model checking techniques for analysing quantitative p...
This paper presents our approach to the quantitative modeling and analysis of highly (re)configurabl...
This paper presents our approach to the quantitative modeling and analysis of highly (re)configurabl...
QFLan offers modeling and analysis of highly reconfigurable systems, like product lines, which are c...
QFLan offers modeling and analysis of highly reconfigurable systems, like product lines, which are c...
In a software product line (SPL), a collection of software products is defined by their commonalitie...
In (ter Beek et al., 2018), we introduce QFLan, a framework for quantitative modeling and analysis o...
We investigate the suitability of statistical model checking for the analysis of probabilistic model...
We investigate the suitability of statistical model checking for the analysis of probabilistic model...
International audienceWe report on the suitability of statistical model checking forthe analysis of ...
We report on the suitability of statistical model checking for the analysis of quantitative properti...
We investigate the suitability of statistical model checking techniques for analysing quantitative p...
We investigate the suitability of statistical model checking techniques for analysing quantitative p...
This paper presents our approach to the quantitative modeling and analysis of highly (re)configurabl...
This paper presents our approach to the quantitative modeling and analysis of highly (re)configurabl...
QFLan offers modeling and analysis of highly reconfigurable systems, like product lines, which are c...
QFLan offers modeling and analysis of highly reconfigurable systems, like product lines, which are c...
In a software product line (SPL), a collection of software products is defined by their commonalitie...
In (ter Beek et al., 2018), we introduce QFLan, a framework for quantitative modeling and analysis o...