A multi-domain platform of safety process methods and tools for critical embedded systems. Blanquart, J., Armengaud, E., Baufreton, P., Bourrouilh, Q., Machrouh, J., Mitschke, A., Oertel, M., Peikenkamp, T., & Wien, T. 2012.
A multi-domain platform of safety process methods and tools for critical embedded systems. [link]Paper  abstract   bibtex   
International audienceThe CESAR project 1 aims at elaborating a Reference Technology Platform usable across several application (domains Aeronautics, Automotive, Industrial Automation, Railway and Space) for the cost effective development and validation of safety related embedded systems. Safety and, more generally, dependability are therefore major topics addressed by the project. This paper focuses on the work performed on safety requirements and approaches to be supported by a common Reference Technology Platform. We analyse and compare the industrial practice, applicable standards and state of the art so as to identify which and how safety views should be supported. This is achieved in particular through the incorporation of the necessary safety concepts in the CESAR Meta Model. We then focus on the major axes investigated by the project, formal model-based techniques for requirements engineering and component-based engineering. Incremental realisations and case studies confirm the interest and provide refined requirements for the final version of the platform
@article{blanquart_multi-domain_2012,
	title = {A multi-domain platform of safety process methods and tools for critical embedded systems.},
	url = {https://core.ac.uk/display/222874582?recSetID=},
	abstract = {International audienceThe CESAR project 1 aims at elaborating a Reference Technology Platform usable across several application (domains Aeronautics, Automotive, Industrial Automation, Railway and Space) for the cost effective development and validation of safety related embedded systems. Safety and, more generally, dependability are therefore major topics addressed by the project. This paper focuses on the work performed on safety requirements and approaches to be supported by a common Reference Technology Platform. We analyse and compare the industrial practice, applicable standards and state of the art so as to identify which and how safety views should be supported. This is achieved in particular through the incorporation of the necessary safety concepts in the CESAR Meta Model. We then focus on the major axes investigated by the project, formal model-based techniques for requirements engineering and component-based engineering. Incremental realisations and case studies confirm the interest and provide refined requirements for the final version of the platform},
	language = {en-gb},
	urldate = {2021-01-27},
	author = {Blanquart, Jean-Paul and Armengaud, Eric and Baufreton, Philippe and Bourrouilh, Quentin and Machrouh, Joseph and Mitschke, Andreas and Oertel, Markus and Peikenkamp, Thomas and Wien, Tormod},
	year = {2012},
	keywords = {⛔ No DOI found},
}
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