In the last years, the model checking (MC) problem for interval temporal logic (ITL) has received an increasing attention as a viable alternative to the traditional (point-based) temporal logic MC, which can be recovered as a special case. Most results have been obtained by imposing suitable restrictions on interval labeling. In this paper, we overcome such limitations by using regular expressions to define the behavior of proposition letters over intervals in terms of the component states. We first prove that MC for Halpern and Shoham’s ITL (HS), extended with regular expressions, is decidable. Then, we show that formulas of a large class of HS fragments, namely, all fragments featuring (a subset of) HS modalities for Allen’s relations meets, met-by, starts, and started-by, can be model checked in polynomial working space (MC for all these fragments turns out to be PSPACE-complete).
An In-Depth Investigation of Interval Temporal Logic Model Checking with Regular Expressions / Bozzelli, Laura; Molinari, Alberto; Montanari, Angelo; Peron, Adriano. - 10469:10469(2017), pp. 104-119. (Intervento presentato al convegno 15th International Conference on Software Engineering and Formal Methods (SEFM) 2017 tenutosi a Trento nel September 4-8, 2017) [10.1007/978-3-319-66197-1_7].
An In-Depth Investigation of Interval Temporal Logic Model Checking with Regular Expressions
Bozzelli, Laura;PERON, ADRIANO
2017
Abstract
In the last years, the model checking (MC) problem for interval temporal logic (ITL) has received an increasing attention as a viable alternative to the traditional (point-based) temporal logic MC, which can be recovered as a special case. Most results have been obtained by imposing suitable restrictions on interval labeling. In this paper, we overcome such limitations by using regular expressions to define the behavior of proposition letters over intervals in terms of the component states. We first prove that MC for Halpern and Shoham’s ITL (HS), extended with regular expressions, is decidable. Then, we show that formulas of a large class of HS fragments, namely, all fragments featuring (a subset of) HS modalities for Allen’s relations meets, met-by, starts, and started-by, can be model checked in polynomial working space (MC for all these fragments turns out to be PSPACE-complete).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.