We propose DAB – a data-aware extension of BPMN where the process operates over case and persistent data (partitioned into a read-only database called catalog and a read-write database called repository). The model trades off between expressiveness and the possibility of supporting parameterized verification of safety properties on top of it. Specifically, taking inspiration from the literature on verification of artifact systems, we study verification problems where safety properties are checked irrespectively of the content of the read-only catalog, and accepting the potential presence of unboundedly many tuples in the catalog and repository. We tackle such problems using an array-based backward reachability procedure fully implemented in MCMT – a state-of-the-art array-based SMT model checker. Notably, we prove that the procedure is sound and complete for checking safety of DABs, and single out additional conditions that guarantee its termination and, in turn, show decidability of checking safety.
Formal Modeling and SMT-Based Parameterized Verification of Data-Aware BPMN / D. Calvanese, S. Ghilardi, A. Gianola, M. Montali, A. Rivkin (LECTURE NOTES IN ARTIFICIAL INTELLIGENCE). - In: Business Process Management / [a cura di] T. Hildebrandt, B.F. van Dongen, M. Röglinger, J. Mendling. - [s.l] : Springer, 2019 Sep. - ISBN 9783030266189. - pp. 157-175 (( Intervento presentato al 17. convegno BPM tenutosi a Wien nel 2019 [10.1007/978-3-030-26619-6_12].
Formal Modeling and SMT-Based Parameterized Verification of Data-Aware BPMN
S. Ghilardi;
2019
Abstract
We propose DAB – a data-aware extension of BPMN where the process operates over case and persistent data (partitioned into a read-only database called catalog and a read-write database called repository). The model trades off between expressiveness and the possibility of supporting parameterized verification of safety properties on top of it. Specifically, taking inspiration from the literature on verification of artifact systems, we study verification problems where safety properties are checked irrespectively of the content of the read-only catalog, and accepting the potential presence of unboundedly many tuples in the catalog and repository. We tackle such problems using an array-based backward reachability procedure fully implemented in MCMT – a state-of-the-art array-based SMT model checker. Notably, we prove that the procedure is sound and complete for checking safety of DABs, and single out additional conditions that guarantee its termination and, in turn, show decidability of checking safety.
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