Experimental Investigation of Real Time 10 Gbit/s MLSE Equalizer Using 4-States and 16-States Viterbi Detector

Experimental Investigation of Real Time 10 Gbit/s MLSE Equalizer Using 4-States and 16-States Viterbi Detector

Electronic equalizers are more and more applied in optical transmission systems to compensate for static as well as time varying fiber distortions. In this paper we investigate the performance of 4-states and 16-states MLSE equalizers in 10 Gbit/s field trials over buried single mode fibers. Our res...

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Hauptverfasser: Fritzsche, D., Breuer, D., Schurer, L., Ehrhardt, A., Oeruen, H., Schaffer, C.G.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Chromatic dispersion
Detectors
Equalizers
Maximum likelihood estimation
Optical distortion
Optical fiber polarization
Polarization mode dispersion
Robustness
Time varying systems
Viterbi algorithm
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Zusammenfassung:Electronic equalizers are more and more applied in optical transmission systems to compensate for static as well as time varying fiber distortions. In this paper we investigate the performance of 4-states and 16-states MLSE equalizers in 10 Gbit/s field trials over buried single mode fibers. Our results show that the MLSE equalizer enables the joint compensation of chromatic dispersion up to 4480 ps/nm and polarization mode dispersion up to 92 ps. This will increase the uncompensated transmission length and enables a more robust and flexible optical link design.
ISSN:1930-529X
2576-764X
DOI:10.1109/GLOCOM.2009.5425833