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Publication Date:
January 2011
ISSN:
2191-6322
DOI:
10.1515/JOC.2011.054

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Journal of Optical Communications

Editor-in-Chief: Kersten, Ralf Th.

Editorial Board Member: Aggarwal, Ishwar / Amann, M.C. / Artiglia, Massimo / Ballato, John / Elmirghani, J.M.H. / Fechner, Rainer / Kanamori, Hiroo / Lösch, Kurt / Papuchon, Michel

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A New Technique for Reduction the Phase Induced Intensity Noise in SAC-OCDMA Systems

1 / Syed Alwee Aljunid1 / Hilal Adnan Fadhil

1School of Computer and Communication Engineering, University Malaysia Perlis, Malaysia

c1Corresponding author: Thanaa Hussein Abd, School of Computer and Communication, University Malaysia Perils (UniMAP), Kuala Perils, 02000, Perils Malaysia.

Citation Information: Journal of Optical Communications. Volume 32, Issue 4, Pages 263–267, ISSN (Online) 2191-6322, ISSN (Print) 0173-4911, DOI: 10.1515/JOC.2011.054, January 2011

Publication History:
Received:
2011-08-06
Accepted:
2011-10-04

Abstract

A new code for reduction the phase induced intensity noise has been presented. The new code is proposed for Spectral Amplitude-Coding Optical Code Division Multiple Accesses (SAC-OCDMA). This new code family we call it Dynamic Cyclic Shift (DCS) code. The DCS code reduced the effect of Multi Access Interference (MAI) due to it is the property of variable cross correlation. We find that the performance of the DCS code is a batter than other SAC-OCDMA codes such as; Random Diagonal (RD) code, Modified Quadratic Congruence (MQC) code and Modified Frequency Hopping (MFH) code. Through the mathematical calculation and simulation analysis, for the bit-error rate of DCS code is significantly better than other SAC-OCDMA codes, the effect of Phase Induced Intensity Noise is reduced. In addition, proofof-principle simulations of 10 Gb/s for 20 km have been successfully demonstrated and achieved low BER compared to the other codes.

Keywords.: SAC-OCDMA system; dynamic cyclic shift (DCS) code; MFH and RD code

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