Robust total least squares by the nonlinear MCA EXIN neuron

Author

Cirrincioné, Giansalvo ; Cirrincione, Maurizio

Author_Institution

INPG, Grenoble, France

fYear

1998

fDate

21-23 May 1998

Firstpage

295

Lastpage

300

Abstract

The robust version of the MCA EXIN linear neuron is introduced in order to solve typical minor component problems as the total least squares fitting in presence of impulsive and colored noise environments or in presence of outliers, i.e. in nonoptimal conditions for the traditional approaches. Furthermore, an analysis of the divergence of the robust neurons is made. The simulations show the better features of the NMCA EXIN neuron w.r.t. the existing nonneural and neural approaches, even in the case of high Gaussian noise together with strong outliers. This allows the use of this neuron for some very difficult problems, like in computer vision, just giving the possibility of massively high parallel architectures

Keywords

correlation theory; data analysis; eigenvalues and eigenfunctions; least squares approximations; neural nets; Gaussian noise; NMCA EXIN neuron; autocorrelation matrix; colored noise; computer vision; data analysis; eigenvalues; eigenvectors; impulsive noise; massively parallel architectures; minor component problems; nonlinear MCA EXIN neuron; nonoptimal conditions; outliers; robust total least squares; Autocorrelation; Colored noise; Computer vision; Covariance matrix; Least squares approximation; Least squares methods; Neurons; Noise robustness; Parameter estimation; Surface fitting;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligence and Systems, 1998. Proceedings., IEEE International Joint Symposia on

Conference_Location

Rockville, MD

Print_ISBN

0-8186-8548-4

Type

conf

DOI

10.1109/IJSIS.1998.685463

Filename

685463