Papagiannakis, I and Klonidis, D and Curri, V and Poggiolini, P and Bosco, G and Killey, RI and Omella, M and Prat, J and Fonseca, D and Teixeira, A and Cartaxo, A and Freund, R and Grivas, E and Bogris, A and Birbas, AN and Tomkos, I (2009) Electronic distortion compensation in the mitigation of optical transmission impairments: the view of joint project on mitigation of optical transmission impairments by electronic means ePhoton/ONe plus project. IET OPTOELECTRON , 3 (2) 73 - 85. 10.1049/iet-opt.2008.0032.
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Abstract
The key design approaches and results in the. field of compensation of optical impairment distortion by electronic means, as an outcome of the studies and research innovations developed within the joint project on mitigation of optical transmission impairments by electronic means work group of the ePhoton/ONe+ European project are presented. The research topics addressed are related to chromatic and polarisation mode dispersion, with particular reference to feed-forward/decision-feedback equaliser and maximum-likelihood sequence estimation-based equalisers as well as pre-distortion schemes. Additionally, the use of electronic compensation in metro/access applications is examined with reference to studies related to the performance enhancement of directly modulated laser transmitters, the compensation of the square-law characteristics of receivers and the equalisation of multi-level format schemes.
| Type: | Article |
|---|---|
| Title: | Electronic distortion compensation in the mitigation of optical transmission impairments: the view of joint project on mitigation of optical transmission impairments by electronic means ePhoton/ONe plus project |
| DOI: | 10.1049/iet-opt.2008.0032 |
| Keywords: | DISPERSION COMPENSATION, SIGNAL, FIBER, MODULATOR, SYSTEMS, CHIRP |
| UCL classification: | UCL > School of BEAMS > Faculty of Engineering Science > Electronic and Electrical Engineering |
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