Non-linear stochastic dynamics of a cable-mass system with finite bending stiffness via the equivalent linearization technique

Hanna Weber; Stefan Kaczmarczyk; Radoslaw Iwankiewicz

doi:10.15632/jtam-pl/118825

Non-linear stochastic dynamics of a cable-mass system with finite bending stiffness via the equivalent linearization technique

Hanna Weber, Stefan Kaczmarczyk, Radoslaw Iwankiewicz

Engineering

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

Abstract

The non-linear stochastic dynamic behaviour of a high-rise vertical transportation system modelled as a concentrated mass and a cable with finite bending stiffness is considered. The slow time scale is defined and lateral cable displacements coupled with transverse motions are expanded in terms of approximating functions. The excitation of the high-rise building is assumed in the form of a narrow-band mean-square process equivalent to the harmonic process. The equivalent linearization technique is used to replace the original non-linear system with a linear approximation whose coefficients are determined from minimization of the mean-square equation difference between both systems.

Original language	English
Pages (from-to)	483-497
Number of pages	15
Journal	Journal of Theoretical and Applied Mechanics
Volume	58
Issue number	2
DOIs	https://doi.org/10.15632/jtam-pl/118825
Publication status	Published - 15 Apr 2020

Bibliographical note

eISSN: 2543-6309
ISSN: 1429-2955

Keywords

Stochastic dynamics
Nonlinear systems
Cable
Finite bending stiffness
Equivalent
Linerization technique

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10.15632/jtam-pl/118825Licence: CC BY-NC

Weber_etal_JTAM_2020_Non_linear_stochastic_dynamics_of_a_cable_mass_system_with_finite_bending_stiffness_via_equivalent_linearization_techniqueFinal published version, 1.14 MBLicence: CC BY-NC

Cite this

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title = "Non-linear stochastic dynamics of a cable-mass system with finite bending stiffness via the equivalent linearization technique",

abstract = "The non-linear stochastic dynamic behaviour of a high-rise vertical transportation system modelled as a concentrated mass and a cable with finite bending stiffness is considered. The slow time scale is defined and lateral cable displacements coupled with transverse motions are expanded in terms of approximating functions. The excitation of the high-rise building is assumed in the form of a narrow-band mean-square process equivalent to the harmonic process. The equivalent linearization technique is used to replace the original non-linear system with a linear approximation whose coefficients are determined from minimization of the mean-square equation difference between both systems.",

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AU - Kaczmarczyk, Stefan

AU - Iwankiewicz, Radoslaw

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PY - 2020/4/15

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AB - The non-linear stochastic dynamic behaviour of a high-rise vertical transportation system modelled as a concentrated mass and a cable with finite bending stiffness is considered. The slow time scale is defined and lateral cable displacements coupled with transverse motions are expanded in terms of approximating functions. The excitation of the high-rise building is assumed in the form of a narrow-band mean-square process equivalent to the harmonic process. The equivalent linearization technique is used to replace the original non-linear system with a linear approximation whose coefficients are determined from minimization of the mean-square equation difference between both systems.

KW - Stochastic dynamics

KW - Nonlinear systems

KW - Cable

KW - Finite bending stiffness

KW - Equivalent

KW - Linerization technique

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JO - Journal of Theoretical and Applied Mechanics

JF - Journal of Theoretical and Applied Mechanics

IS - 2

ER -

Non-linear stochastic dynamics of a cable-mass system with finite bending stiffness via the equivalent linearization technique

Abstract

Bibliographical note

Keywords

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Prof Stefan Kaczmarczyk

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Non-linear stochastic dynamics of a cable-mass system with finite bending stiffness via the equivalent linearization technique

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Fingerprint

Profiles

Prof Stefan Kaczmarczyk

Cite this