Title :
Defect-based reliability analysis for mission-critical software
Author :
Paul, Raymond A. ; Bastani, Farokh ; Yen, I-Ling ; Challagulla, Venkata U B
Author_Institution :
OASD/C31/Y2K, Dept. of Defense, USA
Abstract :
Most software reliability methods have been developed to predict the reliability of a program using only data gathered during the resting and validation of a specific program. Hence, the confidence that can be attained in the reliability estimate is limited since practical resource constraints can result in a statistically small sample set. One exception is the Orthogonal Defect Classification (ODC) method, which uses data gathered from several projects to track the reliability of a new program, Combining ODC with root-cause analysis can be useful in many applications where it is important to know the reliability of a program for a specific type of a fault. By focusing on specific classes of defects, it becomes possible to (a) construct a detailed model of the defect and (b) use data from a large number of programs. In this paper, we develop one such approach and demonstrate its application to modeling Y2K defects
Keywords :
reliability theory; safety-critical software; Orthogonal Defect Classification; Y2K defects; confidence; mission-critical software; reliability analysis; software reliability; Application software; Command and control systems; Computer science; Data analysis; Information analysis; Mission critical systems; Software measurement; Software reliability; Software systems; Software testing;
Conference_Titel :
Computer Software and Applications Conference, 2000. COMPSAC 2000. The 24th Annual International
Conference_Location :
Taipei
Print_ISBN :
0-7695-0792-1
DOI :
10.1109/CMPSAC.2000.884761
