Title :
Neuronal principal component analysis for the diagnosis of a non linear system
Author :
Pessel, N. ; Balmat, J.-F. ; Lafont, F. ; Bonnal, J.
Author_Institution :
Univ. of South Toulon Var, Toulon
Abstract :
This paper present a detection and diagnosis sensor faults based on a Neuronal Non Linear Principal Component Analysis (NNLPCA) and on a Fisher Discriminant Analysis (FDA). This method is validated in simulation on a non linear system: an experimental greenhouse. Several results are presented. The neuronal approach of the NLPCA is used to underline the correlations between the variables and to estimate the non linear principal components. This NLPCA model allows to estimate the prediction error (SPE: Squared Prediction Error) and to define data classes with and without fault. The classes associated to data with fault are isolated by applying a FDA.
Keywords :
error statistics; estimation theory; fault diagnosis; greenhouses; neurocontrollers; nonlinear control systems; principal component analysis; Fisher discriminant analysis; experimental greenhouse; fault detection; neuronal principal component analysis; nonlinear system; sensor fault diagnosis; simulation; squared prediction error estimation; Actuators; Artificial neural networks; Fault detection; Fault diagnosis; Large scale integration; Linear systems; Multi-layer neural network; Neural networks; Principal component analysis; Reactive power; Experimental greenhouse; Fault diagnosis; Fischer Discriminant Analysis; Neuronal Principal Component Analysis;
Conference_Titel :
Control & Automation, 2007. MED '07. Mediterranean Conference on
Conference_Location :
Athens
Print_ISBN :
978-1-4244-1282-2
Electronic_ISBN :
978-1-4244-1282-2
DOI :
10.1109/MED.2007.4433962
