Computer Networks and ISDN Systems - Protocol specification, testing and verification
Theoretical Computer Science
Theoretical Computer Science
Fault Model-Driven Test Derivation from Finite State Models: Annotated Bibliography
MOVEP '00 Proceedings of the 4th Summer School on Modeling and Verification of Parallel Processes
Testing Transition Systems: An Annotated Bibliography
MOVEP '00 Proceedings of the 4th Summer School on Modeling and Verification of Parallel Processes
Generating Test Cases for a Timed I/O Automaton Model
Proceedings of the IFIP TC6 12th International Workshop on Testing Communicating Systems: Method and Applications
A technique to generate feasible tests for communications systems with multiple timers
IEEE/ACM Transactions on Networking (TON)
Formal testing from timed finite state machines
Computer Networks: The International Journal of Computer and Telecommunications Networking
Specification of Timed EFSM Fault Models in SDL
FORTE '07 Proceedings of the 27th IFIP WG 6.1 international conference on Formal Techniques for Networked and Distributed Systems
A passive testing approach based on invariants: application to the WAP
Computer Networks: The International Journal of Computer and Telecommunications Networking
A guided method for testing timed input output automata
TestCom'03 Proceedings of the 15th IFIP international conference on Testing of communicating systems
ATVA'07 Proceedings of the 5th international conference on Automated technology for verification and analysis
A logic for assessing sets of heterogeneous testing hypotheses
TestCom'06 Proceedings of the 18th IFIP TC6/WG6.1 international conference on Testing of Communicating Systems
Testing real-time multi input-output systems
ICFEM'05 Proceedings of the 7th international conference on Formal Methods and Software Engineering
Automatic test case generation with region-related coverage annotations for real-time systems
ATVA'05 Proceedings of the Third international conference on Automated Technology for Verification and Analysis
Passive testing – a constrained invariant checking approach
TestCom'05 Proceedings of the 17th IFIP TC6/WG 6.1 international conference on Testing of Communicating Systems
An expressive and implementable formal framework for testing real-time systems
TestCom'05 Proceedings of the 17th IFIP TC6/WG 6.1 international conference on Testing of Communicating Systems
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${\cal T}\! {\cal H} {\cal O} {\cal T}\! {\cal L}$ represents a conservative extension of ${\cal H} {\cal O} {\cal T}\! {\cal L}$ (Hypotheses and Observations Testing Logic) to deal with systems where time plays a fundamental role. We adapt some of the ${\cal H} {\cal O} {\cal T}\! {\cal L}$ rules to cope with the new framework. In addition, we introduce several specific hypotheses and rules to appropriately express time assumptions. We provide a correctness result of ${\cal T}\! {\cal H} {\cal O} {\cal T}\! {\cal L}$ with respect to a general notion of timed conformance.