Title :
An Efficient Algorithm for Finding Minimal Overconstrained Subsystems for Model-Based Diagnosis
Author :
Krysander, Mattias ; Aslund, J. ; Nyberg, Mattias
Author_Institution :
Linkoping Univ., Linkoping
Abstract :
In model-based diagnosis, diagnostic system construction is based on a model of the technical system to be diagnosed. To handle large differential algebraic imemodels and to achieve fault isolation, a common strategy is to pick out small overconstrained parts of the model and to test these separately against measured signals. In this paper, a new algorithm for computing all minimal overconstrained subsystems in a model is proposed. For complexity comparison, previous algorithms are recalled. It is shown that the time complexity under certain conditions is much better for the new algorithm. This is illustrated using a truck engine model.
Keywords :
computational complexity; differential algebraic equations; fault diagnosis; maintenance engineering; reliability theory; diagnostic system construction; differential algebraic models; fault diagnosis; fault isolation; minimal overconstrained subsystems; model-based diagnosis; structural analysis; time complexity; truck engine model; Algorithm design and analysis; Bipartite graph; Computational complexity; Difference equations; Differential algebraic equations; Engines; Industrial relations; Polynomials; Redundancy; System testing; Fault diagnosis; model-based diagnosis; redundancy; structural analysis; structurally overdetermined;
Journal_Title :
Systems, Man and Cybernetics, Part A: Systems and Humans, IEEE Transactions on
DOI :
10.1109/TSMCA.2007.909555
