Title :
EVM as new quality metric for optical modulation analysis
Author :
Nebendahl, Bernd ; Freude, W. ; Koos, C. ; Leuthold, Juerg ; Huebner, M. ; Schmogrow, R. ; Josten, A. ; Hillerkuss, D. ; Koenig, S. ; Winter, Mark ; Freude, W. ; Koos, C. ; Leuthold, Juerg ; Meyer, Jorg ; Dreschmann, M. ; Huebner, M. ; Hillerkuss, D. ; Le
Author_Institution :
Digital & Photonic Test Div., Agilent Technol., Böblingen, Germany
Abstract :
The quality of optical signals is a very important parameter in optical communications. Several metrics are in common use, like optical signal-to-noise power ratio (OSNR), Q-factor, error vector magnitude (EVM) and bit error ratio (BER). A measured raw BER is not necessarily useful to predict the final BER after soft-decision forward error correction (FEC), if the statistics of the noise leading to errors is unknown. In this respect the EVM is superior, as it allows an estimation of the error statistics. We compare various metrics analytically, by simulation, and through experiments. We employ six quadrature amplitude modulation (QAM) formats at symbol rates of 20 GBd and 25 GBd. The signals were generated by a software-defined transmitter. We conclude that for optical channels with additive Gaussian noise the EVM metric is a reliable quality measure. For nondata-aided QAM reception, BER in the range 10-6-10-2 can be reliably estimated from measured EVM.
Keywords :
Gaussian noise; error statistics; forward error correction; optical communication; optical modulation; quadrature amplitude modulation; BER; EVM metric; OSNR; Q-factor; additive Gaussian noise; bit error ratio; error statistics; error vector magnitude; nondata-aided QAM reception; optical communications; optical modulation analysis; optical signal quality; optical signal-to-noise power ratio; quadrature amplitude modulation; quality metric; reliable quality measure; soft-decision FEC; soft-decision forward error correction; software-defined transmitter; Bit error rate; Optical amplifiers; Optical noise; Optical receivers; Optical transmitters; Signal to noise ratio; Q-factor; bit-error ratio (BER); error vector magnitude (EVM); signal-to-noise power ratio; software defined transmitter;
Conference_Titel :
Electronics, Communications and Photonics Conference (SIECPC), 2013 Saudi International
Conference_Location :
Fira
Print_ISBN :
978-1-4673-6196-5
Electronic_ISBN :
978-1-4673-6194-1
DOI :
10.1109/SIECPC.2013.6551002
