DSP complexity of mode-division multiplexed receivers
Beril Inan,Bernhard Spinnler,Filipe Ferreira,Dirk van den Borne,Adriana Lobato,Susmita Adhikari,Vincent A. J. M. Sleiffer,Maxim Kuschnerov,Norbert Hanik,Sander L. Jansen +9 more
TLDR
It is concluded that for few mode transmission systems the reduction of modal delay is crucial to enable long-haul performance and the complexity of mode-division multiplexed digital signal processing algorithms with different numbers of multiplexing modes in terms ofmodal dispersion and distance.Abstract:
The complexities of common equalizer schemes are analytically analyzed in this paper in terms of complex multiplications per bit. Based on this approach we compare the complexity of mode-division multiplexed digital signal processing algorithms with different numbers of multiplexed modes in terms of modal dispersion and distance. It is found that training symbol based equalizers have significantly lower complexity compared to blind approaches for long-haul transmission. Among the training symbol based schemes, OFDM requires the lowest complexity for crosstalk compensation in a mode-division multiplexed receiver. The main challenge for training symbol based schemes is the additional overhead required to compensate modal crosstalk, which increases the data rate. In order to achieve 2000 km transmission, the effective modal dispersion must therefore be below 6 ps/km when the OFDM specific overhead is limited to 10%. It is concluded that for few mode transmission systems the reduction of modal delay is crucial to enable long-haul performance.read more
Citations
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Space-division multiplexing in optical fibres
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Digital Signal Processing for Coherent Transceivers Employing Multilevel Formats
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Effect of Mode Coupling on Signal Processing Complexity in Mode-Division Multiplexing
TL;DR: In this article, the authors evaluate the computational complexity of various MIMO single-carrier equalizers, considering separate or combined equalization of CD and MD, in the time or frequency domain.
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