Real-time systems and their programming languages
Real-time systems and their programming languages
Theoretical Computer Science
Timing Analysis of Ada Tasking Programs
IEEE Transactions on Software Engineering - Special issue: best papers of the 1996 international symposium on software testing and analysis ISSTA'96
Proceedings of the DIMACS/SYCON workshop on Hybrid systems III : verification and control: verification and control
A Ravenscar-Compliant Run-time Kernel for Safety-Critical Systems*
Real-Time Systems
Timed Automata with Asynchronous Processes: Schedulability and Decidability
TACAS '02 Proceedings of the 8th International Conference on Tools and Algorithms for the Construction and Analysis of Systems
Model-Checking for Real-Time Systems
FCT '95 Proceedings of the 10th International Symposium on Fundamentals of Computation Theory
Reducing the number of clock variables of timed automata
RTSS '96 Proceedings of the 17th IEEE Real-Time Systems Symposium
Schedulability analysis using two clocks
TACAS'03 Proceedings of the 9th international conference on Tools and algorithms for the construction and analysis of systems
Systems and Software Verification: Model-Checking Techniques and Tools
Systems and Software Verification: Model-Checking Techniques and Tools
Case study on distributed and fault tolerant system modeling based on timed automata
Journal of Systems and Software
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The aim of this article is to show, how a multitasking application running under real-time operating system compliant with OSEK/VDX standard can be modeled by timed automata. The application under consideration consists of several tasks, it includes resource sharing and synchronization by events. For such system, we use model checking theory based on timed automata and we verify time and logical properties of proposed model by existing model checking tools. Since a complexity of the model-checking verification exponentially grows with the number of clocks used in a model, the proposed model uses only one clock for measuring execution time of all modeled tasks.