Pulse Waveform Manipulation in FDM-OTDR for Suppressing Inter-Channel Crosstalk

Author

Iida, Hiroyuki ; Toge, Kunihiro ; Ito, Fumihiko

Author_Institution

NTT Access Network Service Syst. Labs., NTT Corp., Tsukuba, Japan

Volume

32

Issue

14

fYear

2014

fDate

July15, 15 2014

Firstpage

2569

Lastpage

2576

Abstract

The inter-channel crosstalk (XT) in frequency division multiplexing coherent optical time domain reflectometry (FDM-OTDR) is described theoretically. The inter-channel XT degrades the spatial resolution of the OTDR trace at the position, where the reflectivity changes precipitously, and is dependent on the frequency channel spacing, pulse waveform, and weighting function of the signal processing. We show that the deterioration of the OTDR trace can be fully simulated by using impulse response analysis, and that apodization of the probe pulse shape and weighting function effectively suppress the inter-channel XT. Moreover, we propose a novel nonlinear self-phase modulation (SPM) suppression scheme to adapt apodized probe pulse in our experiment. The experimental results for the impulse response, OTDR trace, and SPM suppression are discussed.

Keywords

frequency division multiplexing; optical crosstalk; optical fibre testing; optical time-domain reflectometry; self-phase modulation; FDM-OTDR; coherent optical time domain reflectometry; frequency channel spacing; frequency division multiplexing; interchannel crosstalk suppression; nonlinear self-phase modulation suppression; probe pulse shape; pulse waveform manipulation; signal processing; weighting function; Backscatter; Frequency division multiplexing; Optical amplifiers; Optical fibers; Optical reflection; Probes; Apodization; fiber nonlinear effect; frequency division multiplexing (FDM); inter-channel crosstalk (XT); optical time domain reflectometry (OTDR);

fLanguage

English

Journal_Title

Lightwave Technology, Journal of

Publisher

ieee

ISSN

0733-8724

Type

jour

DOI

10.1109/JLT.2014.2329704

Filename

6834754