Title :
Decentralized particle filtering based fault diagnosis for nonlinear distributed and interconnected systems
Author :
Nokhodberiz, Nargess Sadeghzadeh ; Poshtan, Javad
Author_Institution :
Dept. of Electr. Eng., Iran Univ. of Sci. & Technol., Tehran, Iran
Abstract :
The problem of decentralized fault diagnosis for nonlinear, non-Gaussian systems composed of spatially distributed and physically interconnected subsystems, is considered. Normal and faulty behaviours are modelled as two hypotheses with two different models. Accordingly, the general system is modeled as a hybrid system with two faulty and healhty modes. Then, it is decomposed into hybrid interconnected subsystems. Particle filtering approach is employed for nonlinear state estimation as well as non-Gaussian probability distribution estimation. Faulty or health modes are estimated using Maximum A Poserior Estimators (MAP). The effectiveness of the proposed distributed algorithm is demonstrated through applying to a quadruple tank process.
Keywords :
fault diagnosis; interconnected systems; maximum likelihood estimation; multivariable systems; nonlinear systems; particle filtering (numerical methods); tanks (containers); MAP; decentralized particle filtering; distributed algorithm; fault diagnosis; faulty behaviours; faulty modes; healhty modes; hybrid interconnected subsystems; maximum a posterior estimators; nonGaussian probability distribution estimation; nonGaussian systems; nonlinear distributed systems; nonlinear state estimation; normal behaviours; physically interconnected subsystems; quadruple tank process; spatially distributed subsystems; Equations; Fault detection; Fault diagnosis; Filtering; Interconnected systems; Mathematical model; Vectors; Decentralized Fault Diagnosis; Hybrid Systems; Maximum A Posterior Estimator; Particle Filtering;
Conference_Titel :
Electrical Engineering (ICEE), 2013 21st Iranian Conference on
Conference_Location :
Mashhad
DOI :
10.1109/IranianCEE.2013.6599868
