Safeware: system safety and computers
Safeware: system safety and computers
Safety Critical Computer Systems
Safety Critical Computer Systems
Hierarchically Performed Hazard Origin and Propagation Studies
SAFECOMP '99 Proceedings of the 18th International Conference on Computer Computer Safety, Reliability and Security
Model-Based Performance Risk Analysis
IEEE Transactions on Software Engineering
Defects in automotive use cases
Proceedings of the 2006 ACM/IEEE international symposium on Empirical software engineering
Component airbag: a novel approach to develop dependable component-based applications
Proceedings of the the 6th joint meeting of the European software engineering conference and the ACM SIGSOFT symposium on The foundations of software engineering
Component airbag: a novel approach to develop dependable component-based applications
The 6th Joint Meeting on European software engineering conference and the ACM SIGSOFT symposium on the foundations of software engineering: companion papers
FMECA control for software development
COMPSAC-W'05 Proceedings of the 29th annual international conference on Computer software and applications conference
Assessment of hazard identification methods for the automotive domain
SAFECOMP'06 Proceedings of the 25th international conference on Computer Safety, Reliability, and Security
Dependability modeling and analysis of software systems specified with UML
ACM Computing Surveys (CSUR)
A UML-based method for risk analysis of human-robot interactions
Proceedings of the 2nd International Workshop on Software Engineering for Resilient Systems
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Abstract: Mass produced products are becoming more and more complex, which forces the designers to model the functionality early in the design process. UML Use cases was found to be a useful method for this purpose at Volvo Cars and is currently used for modeling all functions implemented in the electrical network. When using Use cases in design of complex safety critical systems there is still an uncovered demand for early hazard analysis at a functional level. This work integrates a modified Functional Hazard Assessment and Use cases. The analysis generates valuable results used as design requirements and dependability analysis input. The methods results have exceeded our expectations. An example is included in the paper, showing how the method works.