Identification of complex Bragg gratings (Apodized and chirped) using artificial neural networks (ANN) (inverse problem and ANN)

Author

Rostami, A. ; Yazdanpanah-Goharrizi, A.

Author_Institution

Univ. of Tabriz, Tabriz

fYear

2006

fDate

12-15 Dec. 2006

Firstpage

1313

Lastpage

1316

Abstract

A new method based on artificial neural networks (ANN) for solution of the inverse problem for reconstruction of the complex Bragg gratings, precisely, is proposed. The Runge-Kutta method for calculation of spectrum of the reflection coefficient based on the Riccati equation in a fiber Bragg gratings is used and the application of the multilayer perceptron neural network (MLPNN) in inverse scattering problem is considered. The training of the MLPNN is based on the back propagation algorithm. The simulated results of the complex Bragg gratings for given non-uniformity are used as training data. Finally, after training the simulated results of the output of ANN shows effectiveness of the proposed methodology. In this paper the proposed idea is examined for some examples.

Keywords

Bragg gratings; Runge-Kutta methods; backpropagation; inverse problems; multilayer perceptrons; optical engineering computing; ANN; MLPNN; Riccati equation; Runge-Kutta method; artificial neural networks; back propagation algorithm; complex Bragg gratings; inverse scattering problem; multilayer perceptron neural network; reflection coefficient; Artificial neural networks; Bragg gratings; Chirp; Inverse problems; Multi-layer neural network; Multilayer perceptrons; Neural networks; Reflection; Riccati equations; Training data; Artificial Neural Networks; Back Propagation; Complex Bragg Grating; Inverse Scattering;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwave Conference, 2006. APMC 2006. Asia-Pacific

Conference_Location

Yokohama

Print_ISBN

978-4-902339-08-6

Electronic_ISBN

978-4-902339-11-6

Type

conf

DOI

10.1109/APMC.2006.4429647

Filename

4429647