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We advocate a fusion of property-oriented testing (POT) and model-based testing (MBT). The existence of a symbolic finite state machine (SFSM) model fulfilling the properties of interest is exploited for property-directed test data generation and to create a test oracle. A new test generation strategy is presented for verifying that the system under test (SUT) satisfies the same LTL safety conditions over a given set of atomic propositions as the model. We prove that this strategy is exhaustive in the sense that any SUT violating at least one of these formulae will fail at least one test case of the generated suite. It is shown that the existence of a model allows for significantly smaller exhaustive test suites as would be necessary for POT without reference models. As a corollary, the main theorem also generalises a known result about SFSM-based conformance testing for language equivalence. Our approach fits well to industrial development processes for (potentially safety-critical) cyber-physical systems, where both models and properties representing system requirements are elaborated for development, verification, and validation.
Huang et al. (Sat,) studied this question.