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Safe Automotive soFtware architEcture (SAFE)
| Content Provider | Semantic Scholar |
|---|---|
| Author | Khalil, Maged Rudolph, Alexander L. Kemmerich, Joerg Eckel, Andreas Biendl, Elvira Adler, Nico |
| Copyright Year | 2014 |
| Abstract | SafetyRequirement Requirements:: SoftwareSafetyRequirement ErrorHandlerSSR ErrorDetectionSSR Copyright 2013 The SAFE Project Consortium Draft version. Final version planned for March 2014. SAFE – an ITEA2 project D6.a 2014 The SAFE Consortium Version 1.5 52 (73) “[6-6] Definition of Software Safety Requirement” (see chapter 13) in the swimlane “requirements engineering” “[6-8] Definition of software unit requirements” (see chapter 13) in the swimlane “requirements engineering” 8.1.4 Exemplary realizations in tools Based on common practices in the automotive domain, Software Safety Requirements are usually generated by rich-text capable document processing tools or spreadsheet tools. 8.1.5 Exemplarily usage in industrial use case The evaluation scenario “Safety Code Generation” applies the concept of software safety requirement specification according to SAFE. This is done by application the SAFE tool platform incl. the tree editor for modeling safety requirements. As there is a close relation between the evaluation scenario and the method definition, the SAFE modeling approach for safety requirements fits very well to the evaluation scenario, allowing to generate software safety mechanisms from the formalized requirements specification. 8.2 Software Realization |
| File Format | PDF HTM / HTML |
| Alternate Webpage(s) | https://itea3.org/index.php/project/workpackage/document/download/1629/10039-SAFE-WP-6-SAFED6a |
| Language | English |
| Access Restriction | Open |
| Content Type | Text |
| Resource Type | Article |
