Fault Tree Analysis is a popular technique used to support the design of critical systems. In a prior work, fault tree semantics have been developed for Non-Deterministic Dynamic FaultTrees that introduces non-determinism to the recovery actions to solve the problem of spare races and improve system reliability. However the existing work only deals with permanent faults. The focus of the thesis work is extending the formalism of NonDeterministic Dynamic Fault Trees to support the notion of repair and develop semantics for Non-Deterministic Repairable Fault Trees to achieve higher availability of system. It includes formalizing the gate semantics and adapting the algorithms for analyzing the fault tree. Furthermore, the thesis work also adapts the minimization algorithms to produce a more compact version of the Recovery Automaton with fewer states
Semantics of Non-Deterministic Repairable Fault Trees
2019
Theses
Electronic Resource
English
Synthesizing FDIR Recovery Strategies From Non-Deterministic Dynamic Fault Trees
German Aerospace Center (DLR) | 2017
|Synthesizing FDIR Recovery Strategies From Non-Deterministic Dynamic Fault Trees
German Aerospace Center (DLR) | 2017
|