From Verification to Implementation: A Model Translation Tool and a Pacemaker Case Study

Model-Driven Design (MDD) of cyber-physical systems advocates for design procedures that start with formal modeling of the real-time system, followed by the model's verification at an early stage. The verified model must then be translated to a more detailed model for simulation-based testing a...

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Bibliographic Details
Main Authors: Pajic, M., Zhihao Jiang, Insup Lee, Sokolsky, O., Mangharam, R.
Format: Conference Proceeding
Language:English
Subjects:
Automata
Clocks
Cost accounting
Modeling
Pacemakers
Semantics
Testing
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Summary:Model-Driven Design (MDD) of cyber-physical systems advocates for design procedures that start with formal modeling of the real-time system, followed by the model's verification at an early stage. The verified model must then be translated to a more detailed model for simulation-based testing and finally translated into executable code in a physical implementation. As later stages build on the same core model, it is essential that models used earlier in the pipeline are valid approximations of the more detailed models developed downstream. The focus of this effort is on the design and development of a model translation tool, UPP2SF, and how it integrates system modeling, verification, model-based WCET analysis, simulation, code generation and testing into an MDD based framework. UPP2SF facilitates automatic conversion of verified timed automata-based models (in UPPAAL) to models that may be simulated and tested (in Simulink/State flow). We describe the design rules to ensure the conversion is correct, efficient and applicable to a large class of models. We show how the tool enables MDD of an implantable cardiac pacemaker. We demonstrate that UPP2SF preserves behaviors of the pacemaker model from UPPAAL to State flow. The resultant State flow chart is automatically converted into C and tested on a hardware platform for a set of requirements.
ISSN:1545-3421
2642-7346
DOI:10.1109/RTAS.2012.25