Title :
Optimal and near-optimal algorithms for multiple fault diagnosis with unreliable tests
Author :
Shakeri, M. ; Raghavan, V. ; Pattipati, K.R. ; Patterson-Hine, A.
Author_Institution :
Qualtech Syst. Inc., Mansfield, CT, USA
Abstract :
In this paper, we consider the problem of constructing optimal and near-optimal multiple fault diagnosis (MFD) in bipartite systems with unreliable (imperfect) tests. It is known that exact computation of conditional probabilities for multiple fault diagnosis is NP-hard. The novel feature of our diagnostic algorithms is the use of Lagrangian relaxation and sub-gradient optimization methods to provide: (1) near optimal solutions for the MFD problem, and (2) upper bounds for an optimal branch-and-bound algorithm. The proposed method is illustrated using several examples. Computational results indicate that: (1) our algorithm has superior computational performance to the existing algorithms, (2) the near optimal algorithm generates the most likely candidates with a very high accuracy, and (3) our algorithm can find the most likely candidates in systems with as many as 1000 faults
Keywords :
Bayes methods; automatic testing; computational complexity; fault diagnosis; optimisation; probability; reliability; Lagrangian relaxation; bipartite systems; computational performance; conditional probabilities; diagnostic algorithms; multiple fault diagnosis; near-optimal algorithms; optimal branch-and-bound algorithm; sub-gradient optimization; unreliable tests; upper bounds; Fault diagnosis; Genetic algorithms; High performance computing; Intelligent sensors; Lagrangian functions; Optimization methods; Postal services; System testing; Systems engineering and theory; Upper bound;
Conference_Titel :
AUTOTESTCON '96, Test Technology and Commercialization. Conference Record
Conference_Location :
Dayton, OH
Print_ISBN :
0-7803-3379-9
DOI :
10.1109/AUTEST.1996.547777
