DocumentCode
1754476
Title
Bandwidth-Variable Transceivers based on Four-Dimensional Modulation Formats
Author
Fischer, Johannes ; Alreesh, Saleem ; Elschner, Robert ; Frey, Felix ; Nolle, M. ; Schmidt-Langhorst, Carsten ; Schubert, Colja
Author_Institution
Fraunhofer Inst. for Telecommun. Heinrich Hertz Inst., Berlin, Germany
Volume
32
Issue
16
fYear
2014
fDate
Aug.15, 15 2014
Firstpage
2886
Lastpage
2895
Abstract
In this invited contribution, we discuss technology options for bandwidth-variable transceivers which are key components for the realization of flexible software-defined optical networking. Bandwidth-variable transceivers enable the software-controlled adaptation of physical layer parameters such as transmitted bit rate, spectral efficiency and transparent reach according to the traffic demands at hand. In particular, we focus on recent advances in four-dimensional modulation formats and in modulation format transparent data-aided digital signal processing. It is argued that four-dimensional modulation formats present an attractive complement to conventional polarization-multiplexed formats in the context of bandwidth-variable transceivers, where they enable a smooth transition with respect to spectral efficiency while requiring marginal additional hardware effort. Results of numerical simulations and experiments supporting this statement are presented. For the cost-efficient hardware implementation of bandwidth-variable transceivers supporting several polarization-multiplexed and four-dimensional modulation formats, digital signal processing algorithms are required which operate format transparent and consume little hardware resources. We discuss data-aided signal processing as one possible option, in particular with respect to carrier frequency recovery and channel estimation in combination with frequency domain equalization.
Keywords
channel estimation; equalisers; numerical analysis; optical fibre networks; optical information processing; optical modulation; optical transceivers; software radio; telecommunication traffic; bandwidth-variable transceivers; carrier frequency recovery; channel estimation; data-aided signal processing; digital signal processing algorithms; flexible software-defined optical networking; four-dimensional modulation; four-dimensional modulation formats; frequency domain equalization; physical layer parameters; polarization-multiplexed formats; polarization-multiplexed modulation; software-controlled adaptation; spectral efficiency; traffic demands; transparent data-aided digital signal processing; Bit error rate; Bit rate; Digital signal processing; Optical fiber polarization; Quadrature amplitude modulation; Transceivers; Adaptive filters; digital communication; digital signal processing; modulation; optical fiber communication; optical receivers; optical transmitters; transceivers;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/JLT.2014.2319244
Filename
6803879
Link To Document