On the Error Probability Evaluation in Lightwave Systems With Optical Amplification

Author

Forestieri, Enrico ; Secondini, Marco

Author_Institution

Centro di Eccellenza per l´´lngegneria, dell´´Inf. e della Comun., Scuola Superiore Sant´´Anna, Pisa

Volume

27

Issue

6

fYear

2009

fDate

3/15/2009 12:00:00 AM

Firstpage

706

Lastpage

717

Abstract

We review the time domain, frequency domain, and Fourier series Karhunen-Loeve series expansion (KLSE) methods for exact BER evaluation in intensity- and phase-modulated direct-detection optically amplified systems. We compare their complexity and computational efficiency, and discuss the most relevant implementation issues. We show that the method based on a Fourier series expansion has the simplest implementation and requires the minimum number of eigenvalues to converge to the exact BER value for various kind of optical filters. For this method, we also introduce an equivalent form of the moment generating function, that avoids the singularity for eigenvalues equal to zero, and derive an alternative expansion where signal and noise are expanded on the same orthonormal basis.

Keywords

Fourier transform optics; amplification; optical filters; Fourier series; Karhunen-Loeve series expansion; error probability evaluation; frequency domain; lightwave systems; optical amplification; optical filters; time domain; Bit error rate; Computational efficiency; Eigenvalues and eigenfunctions; Error probability; Fourier series; Frequency domain analysis; Noise generators; Optical filters; Signal generators; Stimulated emission; Amplifier noise; Karhunen-LoÉve expansion; direct detection; error probability evaluation;

fLanguage

English

Journal_Title

Lightwave Technology, Journal of

Publisher

ieee

ISSN

0733-8724

Type

jour

DOI

10.1109/JLT.2008.927770

Filename

4814807