Theoretical Computer Science
A Formal Approach to Conformance Testing
Proceedings of the IFIP TC6/WG6.1 Sixth International Workshop on Protocol Test systems VI
HYTECH: A Model Checker for Hybrid Systems
CAV '97 Proceedings of the 9th International Conference on Computer Aided Verification
T-UPPAAL: Online Model-based Testing of Real-Time Systems
Proceedings of the 19th IEEE international conference on Automated software engineering
Simulating the power consumption of large-scale sensor network applications
SenSys '04 Proceedings of the 2nd international conference on Embedded networked sensor systems
EMSOFT '08 Proceedings of the 8th ACM international conference on Embedded software
Exploiting Timed Automata for Conformance Testing of Power Measurements
FORMATS '09 Proceedings of the 7th International Conference on Formal Modeling and Analysis of Timed Systems
Testing real-time systems using UPPAAL
Formal methods and testing
Priced timed automata: algorithms and applications
FMCO'04 Proceedings of the Third international conference on Formal Methods for Components and Objects
Online testing of real-time systems using UPPAAL
FATES'04 Proceedings of the 4th international conference on Formal Approaches to Software Testing
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
Segmented state space traversal for conformance testing of cyber-physical systems
FORMATS'11 Proceedings of the 9th international conference on Formal modeling and analysis of timed systems
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Cyber-Physical Systems (CPS) require a high degree of reliability and robustness. Hence it is important to assert their correctness with respect to extra-functional properties, like power consumption, temperature, etc. In turn the physical quantities may be exploited for assessing system implementations. This article develops a methodology for utilizing measurements of physical quantities for testing the conformance of a running CPS with respect to a formal description of its required behavior allowing to uncover defects. We present foundations and implementations of this approach and demonstrate its usefulness by conformance testing power measurements of a wireless sensor node with a formal model of its power consumption.