Title :
Fault Identification Via Nonparametric Belief Propagation
Author :
Bickson, Danny ; Baron, Dror ; Ihler, Alexander ; Avissar, Harel ; Dolev, Danny
Author_Institution :
Machine Learning Dept., Carnegie Mellon Univ., Pittsburgh, PA, USA
fDate :
6/1/2011 12:00:00 AM
Abstract :
We consider the problem of identifying a pattern of faults from a set of noisy linear measurements. Unfortunately, maximum a posteriori (MAP) probability estimation of the fault pattern is computationally intractable. To solve the fault identification problem, we propose a nonparametric belief propagation (NBP) approach. We show empirically that our belief propagation solver is more accurate than recent state-of-the-art algorithms including interior point methods and semidefinite programming. Our superior performance is explained by the fact that we take into account both the binary nature of the individual faults and the sparsity of the fault pattern arising from their rarity.
Keywords :
belief networks; fault location; mathematical programming; probability; signal reconstruction; compressed sensing; fault identification; fault pattern; interior point methods; maximum a posteriori probability estimation; noisy linear measurements; nonparametric belief propagation; semidefinite programming; Algorithm design and analysis; Belief propagation; Circuit faults; Fault diagnosis; Noise measurement; Signal processing algorithms; Sparse matrices; Compressed sensing (CS); fault identification; message passing; nonparametric belief propagation (NBP); stochastic approximation;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2011.2116014
