The algorithmic analysis of hybrid systems
Theoretical Computer Science - Special issue on hybrid systems
UPPAAL—a tool suite for automatic verification of real-time systems
Proceedings of the DIMACS/SYCON workshop on Hybrid systems III : verification and control: verification and control
Algorithmic Analysis of Nonlinear Hybrid Systems
Proceedings of the 7th International Conference on Computer Aided Verification
Testing real-time embedded software using UPPAAL-TRON: an industrial case study
Proceedings of the 5th ACM international conference on Embedded software
Experience report: the reactis validation tool
ICFP '07 Proceedings of the 12th ACM SIGPLAN international conference on Functional programming
Testing real-time systems using UPPAAL
Formal methods and testing
Online testing of real-time systems using UPPAAL
FATES'04 Proceedings of the 4th international conference on Formal Approaches to Software Testing
PHAVer: algorithmic verification of hybrid systems past hytech
HSCC'05 Proceedings of the 8th international conference on Hybrid Systems: computation and control
Hybrid input-output conformance and test generation
FATES'06/RV'06 Proceedings of the First combined international conference on Formal Approaches to Software Testing and Runtime Verification
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We propose to combine timed automata and linear hybrid automata model checkers for formal testing and monitoring of embedded systems with a hybrid behavior, i.e., where the correctness of the system depends on discrete as well as continuous dynamics. System level testing is considered, where requirements capture abstract behavior and often include non-determinism due to parallelism, internal counters and subtle state of physical materials. The goal is achieved by integrating the tools UPPAAL [2] and PHAVER [3], where the discrete and hard real-time aspects are driven and checked by UPPAAL TRON and strict inclusion of dynamical trajectories is verified by PHAVER. We present the framework, the underlying theory, and our techniques for integrating the tools. We demonstrate the applicability on an industrial case study.