Title :
Diagnositc Reasoner Model Production from Atlas Test Program Sets
Author :
McCroskey, Robert ; Dietz, Mark
Author_Institution :
Honeywell Int., Minneapolis, MN
Abstract :
Model-based diagnostic reasoning provides improvements in fault isolation and repair time as well as cost savings provided by a reduction in false pull rates. To support legacy systems that use ATLAS test program sets for fault isolation and repair, Honeywell has developed a method for extracting diagnostic fault models from ATLAS source code. We will describe the content of the fault models and highlight model features that use data collected in a netcentric maintenance environment to optimize reasoner performance. We will then present a description of the method used to create bootstrap fault models, including a configurable ATLAS source code parser that uses regular text expressions to extract test and fault information from Test Program Sets and create fault models.
Keywords :
XML; diagnostic expert systems; software maintenance; ATLAS test program sets; bootstrap fault models; configurable ATLAS source code parser; false pull rates reduction; fault isolation; legacy systems; model-based diagnostic reasoning; Costs; Data mining; Fault detection; Fault trees; Isolation technology; Optimization methods; Performance evaluation; Production; System testing; XML;
Conference_Titel :
Autotestcon, 2006 IEEE
Conference_Location :
Anaheim, CA
Print_ISBN :
1-4244-0051-1
Electronic_ISBN :
1088-7725
DOI :
10.1109/AUTEST.2006.283741
