Nested Lumped-Parameter Model for Foundation with Strongly Frequency-dependent Impedance

Jue Wang; Ding Zhou; Weiqing Liu; Shuguang Wang

doi:10.1080/13632469.2015.1109568

Nested Lumped-Parameter Model for Foundation with Strongly Frequency-dependent Impedance

Jue Wang, Ding Zhou, Weiqing Liu, Shuguang Wang

School of Civil Engineering

Nanjing Tech University

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

19 Scopus citations

Abstract

A nested lumped-parameter model (LPM) consisting of frequency-independent springs and dashpots is proposed to represent the foundation-soil dynamic system with strongly frequency-dependent impedance in time domain. Due to the convergence and robustness of the complex Chebyshev polynomial, it is used to approximate the dynamic flexibility of the foundation by least-square curve-fitting technique. The comparisons with existing LPMs show that the present model can express the impedance by using a small number of elements and reduce oscillation of the solution appearing in simple polynomial approximations. Finally, several examples of foundations with irregular geometries are presented to show the application of nested LPMs.

Original language	English
Pages (from-to)	975-991
Number of pages	17
Journal	Journal of Earthquake Engineering
Volume	20
Issue number	6
DOIs	https://doi.org/10.1080/13632469.2015.1109568
State	Published - 17 Aug 2016

Keywords

Complex Chebyshev Polynomial
Flexibility Function
Impedance Function
Lumped-Parameter Model
Nested Division
Soil-Structure Interaction

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10.1080/13632469.2015.1109568

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abstract = "A nested lumped-parameter model (LPM) consisting of frequency-independent springs and dashpots is proposed to represent the foundation-soil dynamic system with strongly frequency-dependent impedance in time domain. Due to the convergence and robustness of the complex Chebyshev polynomial, it is used to approximate the dynamic flexibility of the foundation by least-square curve-fitting technique. The comparisons with existing LPMs show that the present model can express the impedance by using a small number of elements and reduce oscillation of the solution appearing in simple polynomial approximations. Finally, several examples of foundations with irregular geometries are presented to show the application of nested LPMs.",

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AU - Wang, Jue

AU - Zhou, Ding

AU - Liu, Weiqing

AU - Wang, Shuguang

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N2 - A nested lumped-parameter model (LPM) consisting of frequency-independent springs and dashpots is proposed to represent the foundation-soil dynamic system with strongly frequency-dependent impedance in time domain. Due to the convergence and robustness of the complex Chebyshev polynomial, it is used to approximate the dynamic flexibility of the foundation by least-square curve-fitting technique. The comparisons with existing LPMs show that the present model can express the impedance by using a small number of elements and reduce oscillation of the solution appearing in simple polynomial approximations. Finally, several examples of foundations with irregular geometries are presented to show the application of nested LPMs.

AB - A nested lumped-parameter model (LPM) consisting of frequency-independent springs and dashpots is proposed to represent the foundation-soil dynamic system with strongly frequency-dependent impedance in time domain. Due to the convergence and robustness of the complex Chebyshev polynomial, it is used to approximate the dynamic flexibility of the foundation by least-square curve-fitting technique. The comparisons with existing LPMs show that the present model can express the impedance by using a small number of elements and reduce oscillation of the solution appearing in simple polynomial approximations. Finally, several examples of foundations with irregular geometries are presented to show the application of nested LPMs.

KW - Complex Chebyshev Polynomial

KW - Flexibility Function

KW - Impedance Function

KW - Lumped-Parameter Model

KW - Nested Division

KW - Soil-Structure Interaction

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JO - Journal of Earthquake Engineering

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Nested Lumped-Parameter Model for Foundation with Strongly Frequency-dependent Impedance

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