Non intrusive Polynomial Chaos-based stochastic macromodeling of multiport systems

D. Spina; F. Ferranti; G. Antonini; T. Dhaene; L. Knockaert

doi:10.1109/SaPIW.2014.6844542

Non intrusive Polynomial Chaos-based stochastic macromodeling of multiport systems

D. Spina, F. Ferranti, G. Antonini, T. Dhaene, L. Knockaert

Onderzoeksoutput: Conference paper

16 Citaten (Scopus)

Samenvatting

We present a novel technique to efficiently perform the variability analysis of electromagnetic systems. The proposed method calculates a Polynomial Chaos-based macromodel of the system transfer function that includes its statistical properties. The combination of a non-intrusive Polynomial Chaos approach with the Vector Fitting algorithm allows to describe the system variability features with accuracy and efficiency. The results of the variability analysis performed with the proposed method are verified by means of comparison with respect to the standard Monte Carlo analysis.

Originele taal-2	English
Titel	2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings
Uitgeverij	IEEE
ISBN van geprinte versie	9781479935994
DOI's	https://doi.org/10.1109/SaPIW.2014.6844542
Status	Published - 1 jan. 2014
Evenement	18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Ghent, Belgium Duur: 11 mei 2014 → 14 mei 2014

Publicatie series

Naam	2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings

Conference

Conference	18th IEEE Workshop on Signal and Power Integrity, SPI 2014
Land/Regio	Belgium
Stad	Ghent
Periode	11/05/14 → 14/05/14

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Spina, D., Ferranti, F., Antonini, G., Dhaene, T., & Knockaert, L. (2014). Non intrusive Polynomial Chaos-based stochastic macromodeling of multiport systems. In 2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings Artikel 6844542 (2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings). IEEE. https://doi.org/10.1109/SaPIW.2014.6844542

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title = "Non intrusive Polynomial Chaos-based stochastic macromodeling of multiport systems",

abstract = "We present a novel technique to efficiently perform the variability analysis of electromagnetic systems. The proposed method calculates a Polynomial Chaos-based macromodel of the system transfer function that includes its statistical properties. The combination of a non-intrusive Polynomial Chaos approach with the Vector Fitting algorithm allows to describe the system variability features with accuracy and efficiency. The results of the variability analysis performed with the proposed method are verified by means of comparison with respect to the standard Monte Carlo analysis.",

author = "D. Spina and F. Ferranti and G. Antonini and T. Dhaene and L. Knockaert",

year = "2014",

month = jan,

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doi = "10.1109/SaPIW.2014.6844542",

language = "English",

isbn = "9781479935994",

series = "2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings",

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booktitle = "2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings",

note = "18th IEEE Workshop on Signal and Power Integrity, SPI 2014 ; Conference date: 11-05-2014 Through 14-05-2014",

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Spina, D, Ferranti, F, Antonini, G, Dhaene, T & Knockaert, L 2014, Non intrusive Polynomial Chaos-based stochastic macromodeling of multiport systems. in 2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings., 6844542, 2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings, IEEE, 18th IEEE Workshop on Signal and Power Integrity, SPI 2014, Ghent, Belgium, 11/05/14. https://doi.org/10.1109/SaPIW.2014.6844542

TY - GEN

T1 - Non intrusive Polynomial Chaos-based stochastic macromodeling of multiport systems

AU - Spina, D.

AU - Ferranti, F.

AU - Antonini, G.

AU - Dhaene, T.

AU - Knockaert, L.

PY - 2014/1/1

Y1 - 2014/1/1

N2 - We present a novel technique to efficiently perform the variability analysis of electromagnetic systems. The proposed method calculates a Polynomial Chaos-based macromodel of the system transfer function that includes its statistical properties. The combination of a non-intrusive Polynomial Chaos approach with the Vector Fitting algorithm allows to describe the system variability features with accuracy and efficiency. The results of the variability analysis performed with the proposed method are verified by means of comparison with respect to the standard Monte Carlo analysis.

AB - We present a novel technique to efficiently perform the variability analysis of electromagnetic systems. The proposed method calculates a Polynomial Chaos-based macromodel of the system transfer function that includes its statistical properties. The combination of a non-intrusive Polynomial Chaos approach with the Vector Fitting algorithm allows to describe the system variability features with accuracy and efficiency. The results of the variability analysis performed with the proposed method are verified by means of comparison with respect to the standard Monte Carlo analysis.

UR - http://www.scopus.com/inward/record.url?scp=84904489326&partnerID=8YFLogxK

U2 - 10.1109/SaPIW.2014.6844542

DO - 10.1109/SaPIW.2014.6844542

M3 - Conference paper

AN - SCOPUS:84904489326

SN - 9781479935994

T3 - 2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings

BT - 2014 18th IEEE Workshop on Signal and Power Integrity, SPI 2014 - Proceedings

PB - IEEE

T2 - 18th IEEE Workshop on Signal and Power Integrity, SPI 2014

Y2 - 11 May 2014 through 14 May 2014

ER -

Non intrusive Polynomial Chaos-based stochastic macromodeling of multiport systems

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