DocumentCode
1764505
Title
Data-Aided OSNR Estimation Using Low-Bandwidth Coherent Receivers
Author
Cuong Cao Do ; Chen Zhu ; An Vu Tran
Author_Institution
Dept. of Electr. & Electron. Eng., Univ. of Melbourne, Parkville, VIC, Australia
Volume
26
Issue
13
fYear
2014
fDate
41821
Firstpage
1291
Lastpage
1294
Abstract
We propose an optical signal-to-noise ratio (OSNR) estimation technique using low-bandwidth coherent receivers and Golay training sequences (TSs) for coherent optical systems with data-aided channel estimation. The same TSs used for channel estimation in a coherent optical system are also used for OSNR estimation using low speed receivers. The technique is based on analyzing the spectral property of the TSs within the receivers´ bandwidths and thus can be adopted for receivers with low bandwidths and for the distributed optical monitoring purpose. The technique is demonstrated to have an accuracy of 1 dB for 40-Gb/s polarization-multiplexed quadrature phase shift keying and 16-quadrature amplitude modulation coherent single-carrier optical systems at up to 1000-km transmission.
Keywords
multiplexing; optical modulation; optical noise; optical receivers; quadrature amplitude modulation; quadrature phase shift keying; 16-quadrature amplitude modulation coherent single-carrier optical systems; Golay training sequences; TS; bit rate 40 Gbit/s; data-aided OSNR estimation; data-aided channel estimation; distance 1000 km; distributed optical monitoring purpose; low speed receivers; low-bandwidth coherent receivers; noise figure 1 dB; optical signal-to-noise ratio estimation technique; polarization-multiplexed quadrature phase shift keying; receiver bandwidths; spectral property; Bandwidth; Optical filters; Optical noise; Optical polarization; Optical receivers; Signal to noise ratio; Training sequences; coherent receiver; low-bandwidth; optical signal-to-noise ratio;
fLanguage
English
Journal_Title
Photonics Technology Letters, IEEE
Publisher
ieee
ISSN
1041-1135
Type
jour
DOI
10.1109/LPT.2014.2321408
Filename
6809164
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