Title :
Intelligent reliability analysis
Author :
Barnett, Jeffrey A. ; Verma, Tom
Author_Institution :
Autom. Sci. Lab., Northrop Corp., Pico Rivera, CA, USA
Abstract :
An ideal automated reliability analysis system would take a CAD model as input, then identify critical components and output failure probabilities. Unfortunately, the practical systems in use today require a fault tree-a kind of and/or graph-as their input. Since the cognitive distance between the CAD model and its associated fault tree is large, the manual translation step is a source of many mistakes. Furthermore, the use of fault trees makes it difficult to handle the cyclical dependencies that naturally occur among system components. The functional dependency graph, a representation midway between CAD models and fault trees, is described and methodology that automates reliability and diagnostic analyses is developed. When the resultant technology is employed, the knowledge burden is more equally shared between the user and the computer. In addition, more complicated systems can be properly analyzed because cyclical dependencies can be represented
Keywords :
CAD; engineering computing; failure analysis; graph theory; knowledge based systems; probability; reliability; CAD model; and/or graph; automated reliability analysis system; cognitive distance; critical components; cyclical dependencies; diagnostic analyses; failure probabilities; fault tree; functional dependency graph; intelligent reliability analysis; manual translation step; Circuit faults; Data engineering; Design engineering; Failure analysis; Fault trees; Performance analysis; Probability; Reliability engineering; Reliability theory; Tree graphs;
Conference_Titel :
Artificial Intelligence for Applications, 1994., Proceedings of the Tenth Conference on
Conference_Location :
San Antonia, TX
Print_ISBN :
0-8186-5550-X
DOI :
10.1109/CAIA.1994.323644
