Software reliability: measurement, prediction, application
Software reliability: measurement, prediction, application
Component-based product line development: the KobrA approach
Proceedings of the first conference on Software product lines : experience and research directions: experience and research directions
Fault Contribution Trees for Product Families
ISSRE '02 Proceedings of the 13th International Symposium on Software Reliability Engineering
A new component concept for fault trees
SCS '03 Proceedings of the 8th Australian workshop on Safety critical systems and software - Volume 33
Applying a Model-based Approach for Embedded System Development
EUROMICRO '07 Proceedings of the 33rd EUROMICRO Conference on Software Engineering and Advanced Applications
SE'07 Proceedings of the 25th conference on IASTED International Multi-Conference: Software Engineering
Integrating Product-Line Fault Tree Analysis into AADL Models
HASE '07 Proceedings of the 10th IEEE High Assurance Systems Engineering Symposium
Software fault tree analysis for product lines
HASE'04 Proceedings of the Eighth IEEE international conference on High assurance systems engineering
Component-Based hazard analysis: optimal designs, product lines, and online-reconfiguration
SAFECOMP'06 Proceedings of the 25th international conference on Computer Safety, Reliability, and Security
Proceedings of the International Workshop on Security and Dependability for Resource Constrained Embedded Systems
Functional safety and variability: can it be brought together?
Proceedings of the 17th International Software Product Line Conference
Variability-aware safety analysis using delta component fault diagrams
Proceedings of the 17th International Software Product Line Conference co-located workshops
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Reuse of fault trees helps in reducing costs and effort when conducting Fault Tree Analyses (FTAs) for a set of similar systems. Some approaches have been proposed for the systematic reuse of fault trees along with the development of a product line of systems. Nevertheless, these approaches are not longer effective when FTAs are performed after systems have been put into operation. This is mainly due to the lack of product line information required to make fault trees reusable. The model proposed in this paper is a step towards systematically reusing fault trees in the aforementioned context. It acts as an intermediate model between the specification of a system and its corresponding Component Fault Tree (CFT). In particular, it abstracts from the implementation details of a CFT, allowing the integration of variability inherent of product line systems as well as the one obtained from performing fault tree analyses incrementally over time. The model is part of a systematic reuse approach.