Outage Statistics in a Waveplate Hinge Model of Polarization-Mode Dispersion

Jinglai Li; William L. Kath; Gino Biondini; Herwig Kogelnik

doi:10.1109/JLT.2010.2048890

Outage Statistics in a Waveplate Hinge Model of Polarization-Mode Dispersion

Jinglai Li
, William L. Kath
, Gino Biondini
, Herwig Kogelnik

Mathematics

Northwestern University
Nokia

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

The properties of the waveplate hinge model of polarization-mode dispersion (PMD) are studied in detail, and its statistics are compared to those of the traditional hinge model based on the assumption of an isotropic output after each hinge. In particular, the probability density function of the differential group delay for each individual frequency band is computed using a combination of importance sampling and the cross-entropy method. The outage probability is then obtained combining these results with the outage map method, allowing the fraction of bands with unacceptable outage probabilities to be quantified by the noncompliant capacity ratio (NCR). The results show that the traditional hinge model significantly overestimates the NCR compared to the wave-plate hinge model.

Original language	English
Article number	5452963
Pages (from-to)	1958-1968
Number of pages	11
Journal	Journal of Lightwave Technology
Volume	28
Issue number	13
DOIs	https://doi.org/10.1109/JLT.2010.2048890
State	Published - Jul 1 2010

Keywords

Cross-entropy (CE) method
hinge model
importance sampling (IS)
noncompliant capacity ratio (NCR)
optical fiber communications
outage probability
polarization-mode dispersion (PMD)

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10.1109/JLT.2010.2048890

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title = "Outage Statistics in a Waveplate Hinge Model of Polarization-Mode Dispersion",

abstract = "The properties of the waveplate hinge model of polarization-mode dispersion (PMD) are studied in detail, and its statistics are compared to those of the traditional hinge model based on the assumption of an isotropic output after each hinge. In particular, the probability density function of the differential group delay for each individual frequency band is computed using a combination of importance sampling and the cross-entropy method. The outage probability is then obtained combining these results with the outage map method, allowing the fraction of bands with unacceptable outage probabilities to be quantified by the noncompliant capacity ratio (NCR). The results show that the traditional hinge model significantly overestimates the NCR compared to the wave-plate hinge model.",

keywords = "Cross-entropy (CE) method, hinge model, importance sampling (IS), noncompliant capacity ratio (NCR), optical fiber communications, outage probability, polarization-mode dispersion (PMD)",

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T1 - Outage Statistics in a Waveplate Hinge Model of Polarization-Mode Dispersion

AU - Li, Jinglai

AU - Kath, William L.

AU - Biondini, Gino

AU - Kogelnik, Herwig

PY - 2010/7/1

Y1 - 2010/7/1

N2 - The properties of the waveplate hinge model of polarization-mode dispersion (PMD) are studied in detail, and its statistics are compared to those of the traditional hinge model based on the assumption of an isotropic output after each hinge. In particular, the probability density function of the differential group delay for each individual frequency band is computed using a combination of importance sampling and the cross-entropy method. The outage probability is then obtained combining these results with the outage map method, allowing the fraction of bands with unacceptable outage probabilities to be quantified by the noncompliant capacity ratio (NCR). The results show that the traditional hinge model significantly overestimates the NCR compared to the wave-plate hinge model.

AB - The properties of the waveplate hinge model of polarization-mode dispersion (PMD) are studied in detail, and its statistics are compared to those of the traditional hinge model based on the assumption of an isotropic output after each hinge. In particular, the probability density function of the differential group delay for each individual frequency band is computed using a combination of importance sampling and the cross-entropy method. The outage probability is then obtained combining these results with the outage map method, allowing the fraction of bands with unacceptable outage probabilities to be quantified by the noncompliant capacity ratio (NCR). The results show that the traditional hinge model significantly overestimates the NCR compared to the wave-plate hinge model.

KW - Cross-entropy (CE) method

KW - hinge model

KW - importance sampling (IS)

KW - noncompliant capacity ratio (NCR)

KW - optical fiber communications

KW - outage probability

KW - polarization-mode dispersion (PMD)

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M3 - Article

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SN - 0733-8724

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JO - Journal of Lightwave Technology

JF - Journal of Lightwave Technology

IS - 13

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ER -

Outage Statistics in a Waveplate Hinge Model of Polarization-Mode Dispersion

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Keywords

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