Title :
Qualitative analysis of state/event fault trees for supporting the certification process of software-intensive systems
Author :
Roth, Michael ; Liggesmeyer, Peter
Author_Institution :
Dept. Software Eng.: Dependability, Tech. Univ. of Kaiserslautern, Kaiserslautern, Germany
Abstract :
For the certification of modern safety critical systems tree based failure models, like standardized fault trees (FTs), are frequently used methodologies. But when it comes to software-intensive systems these techniques have some crucial disadvantages, especially in modeling timing behavior. To deal with these weak points state/event fault trees (SEFTs) [6] were developed. However, these kind of fault trees can only be analyzed in a quantitative way. In this paper we propose an approach to analyze them qualitatively as well. This results in ordered event sequences which represent different ways for triggering a critical event of the underlying SEFTs, which can be seen as a time-dependent equivalent of the minimal cut set (MCS) analysis of standardized FTs. To evaluate our approach, we implemented the SEFTAnalyzer to apply it on a software-controlled fire alert system.
Keywords :
certification; fault trees; safety-critical software; software fault tolerance; MCS analysis; SEFTAnalyzer; SEFTs; certification process; minimal cut set analysis; ordered event sequences; qualitative analysis; safety critical systems tree based failure model certification; software-controlled fire alert system; software-intensive systems; standardized fault trees; state/event fault trees; time-dependent equivalent; timing behavior; Fault trees; Logic gates; Safety; Software; Statistical analysis; Stochastic processes; Timing; fault tree; reliability analysis; software certification; state event fault tree;
Conference_Titel :
Software Reliability Engineering Workshops (ISSREW), 2013 IEEE International Symposium on
Conference_Location :
Pasadena, CA
DOI :
10.1109/ISSREW.2013.6688920
