Biernacka, Agnieszka, Biernacki, Jerzy, and Szpyrka, Marcin
Subjects
*PETRI nets, *FINITE state machines, *GRAPH theory, *ALGORITHMS, *MATHEMATICAL models, *VERIFICATION of computer systems
Abstract
The paper deals with an algorithm of translation of RTCP-nets' (real-time coloured Petri nets) coverability graphs into nuXmv state machines. The approach enables users to verify RTCP-nets with model checking techniques provided by the nuXmv tool. Full details of the algorithm are presented and an illustrative example of the approach usefulness is provided. [ABSTRACT FROM AUTHOR]
The paper presents an RTCP-nets' (real-time coloured Petri nets) coverability graphs into Aldebaran format translation algorithm. The approach provides the possibility of automatic RTCP-nets verification using model checking techniques provided by the CADP toolbox. An actual fire alarm control panel system has been modelled and several of its crucial properties have been verified to demonstrate the usability of the approach. [ABSTRACT FROM AUTHOR]
The paper presents an RTCP-nets' (real-time coloured Petri nets) coverability graphs into Aldebaran format translation algorithm. The approach provides the possibility of automatic RTCP-nets verification using model checking techniques provided by the CADP toolbox. An actual fire alarm control panel system has been modelled and several of its crucial properties have been verified to demonstrate the usability of the approach. [ABSTRACT FROM AUTHOR]
Biernacka, Agnieszka, Biernacki, Jerzy, and Szpyrka, Marcin
Subjects
*FINITE state machines, *ALGORITHMS, *PETRI nets, *GRAPH theory, *MATHEMATICAL models
Abstract
The paper deals with an algorithm of translation of RTCP-nets' (real-time coloured Petri nets) coverability graphs into nuXmv state machines. The approach enables users to verify RTCP-nets with model checking techniques provided by the nuXmv tool. Full details of the algorithm are presented and an illustrative example of the approach usefulness is provided. [ABSTRACT FROM AUTHOR]