We address the specification and verification of spatio-temporal behaviours of complex systems, extending Signal Spatio-Temporal Logic (SSTL) with a spatial operator capable of specifying topological properties in a discrete space. The latter is modelled as a weighted graph, and provided with a boolean and a quantitative semantics. Furthermore, we define efficient monitoring algorithms for both the boolean and the quantitative semantics. These are implemented in a Java tool available online. We illustrate the expressiveness of SSTL and the effectiveness of the monitoring procedures on the formation of patterns in a Turing reaction-diffusion system.
Qualitative and Quantitative Monitoring of Spatio-Temporal Properties / Nenzi, Laura; Bortolussi, Luca; Ciancia, Vincenzo; Loreti, Michele; Massink, Mieke. - STAMPA. - (2015), pp. 21-37. [10.1007/978-3-319-23820-3_2]
Qualitative and Quantitative Monitoring of Spatio-Temporal Properties
LORETI, MICHELE;MASSINK, MIEKE
2015
Abstract
We address the specification and verification of spatio-temporal behaviours of complex systems, extending Signal Spatio-Temporal Logic (SSTL) with a spatial operator capable of specifying topological properties in a discrete space. The latter is modelled as a weighted graph, and provided with a boolean and a quantitative semantics. Furthermore, we define efficient monitoring algorithms for both the boolean and the quantitative semantics. These are implemented in a Java tool available online. We illustrate the expressiveness of SSTL and the effectiveness of the monitoring procedures on the formation of patterns in a Turing reaction-diffusion system.
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