Carrier frequency offset synchronization and phase noise compensation in coherent optical OFDM systems
Date
2018
Authors
Balogun, Muyiwa Blessing
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
The deployment of optical networks has become inevitably paramount due to the phenomenal
advancement in the communications industry and the associated extraordinary demand for high
data throughput. Optical networks provide the needed solution and reliability especially in this era
where bandwidth-hungry devices are in high demand. The current technical trend seeks to
increase the optical networks capacity, flexibility and reconfigurability, in order to effectively
support long haul data transportation. The orthogonal frequency division multiplexing (OFDM)
technique has been proposed as a viable scheme that can be incorporated so as to greatly enhance
the overall output of the existing optical transport networks. The OFDM technique has become a
popular scheme in telecommunications due to its support for high data-rate transmission,
robustness and spectral efficiency. The scheme is particularly of great interest and very attractive
for use in optical transport system due to its tolerance to chromatic dispersion. However, with the
introduction of the OFDM scheme comes the attendant challenges of carrier frequency offsets
(CFO) and phase noise, which must be adequately addressed in order to ensure optimum
performance of the coherent optical OFDM communication system.
This research work therefore, seeks to address the impact of phase noise and carrier frequency
offset on a non-simplistic, complex and an all-encompassing optical OFDM system model which
considers the influence of polarization mode dispersion, group velocity dispersions, attenuation
and other polarization-dependent losses in the optical link. The effectiveness of the algorithms,
utilized to combat phase noise and carrier frequency offset based on the simplistic optical OFDM
models in the literature, is verified using the non-simplistic comprehensive system model. Also, a
closed-form maximum likelihood (ML) method is developed and utilized for phase noise and
CFO estimation. First, a closed-form ML estimator is derived and implemented for CFO
estimation in coherent optical OFDM (CO-OFDM) system. Thereafter, this is then extended so
that the phase noise and the CFO are jointly acquired using the derived closed-form ML method.
Description
Submitted in fulfillment of the requirements for the degree of Doctor of Philosophy School of Electrical and Information Engineering, University of the Witwatersrand, September, 2018
Keywords
Citation
Balogun, Muyiwa Blessing, (2018) Carrier frequency offset synchronization and phase noise compensation in optical OFDM systems, University of the Witwatersrand, Johannesburg, https://hdl.handle.net/10539/26961.