Joint uncertainty propagation in linear structural dynamics using stochastic reduced basis methods
Joint uncertainty propagation in linear structural dynamics using stochastic reduced basis methods
Uncertainties in the properties of joints produce uncertainties in the dynamic response of built-up structures. Line
joints, such as glued or continuously welded joints, have spatially distributed uncertainty and can be modeled by a
discretized random field. Techniques such as Monte Carlo simulation can be applied to estimate the output statistics,
but computational cost can be prohibitive. This paper addresses how uncertainties in joints might be included
straightforwardly in a finite element model, with particular reference to approaches based on fixed-interface (Craig–
Bampton) component mode synthesis and a stochastic reduced basis method with two variants. These methods are
used to determine the output statistics of a structure. Unlike perturbation-based methods, good accuracy can be
achieved even when the coefficients of variation of the input random variables are not small. Undamped as well as
proportionally damped components are considered. Efficient implementations are proposed based on an exact
matrix identity that leads to a significantly lower computational cost if the number of joint degrees of freedom is
sufficiently small compared with the structure’s overall number of degrees of freedom. A numerical example is
presented. The proposed formulation is an efficient and effective implementation of a stochastic reduced basis
projection scheme. It is seen that the method can be up to orders of magnitude faster than direct Monte Carlo
simulation, while providing results of comparable accuracy. Furthermore, the proposed implementation is more
efficient when fewer joints are affected by uncertainty.
961-969
Dohnal, F.
2593960f-9788-45d4-9699-06cb1f5f6a0f
Mace, B.R.
cfb883c3-2211-4f3a-b7f3-d5beb9baaefe
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
2009
Dohnal, F.
2593960f-9788-45d4-9699-06cb1f5f6a0f
Mace, B.R.
cfb883c3-2211-4f3a-b7f3-d5beb9baaefe
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Dohnal, F., Mace, B.R. and Ferguson, N.S.
(2009)
Joint uncertainty propagation in linear structural dynamics using stochastic reduced basis methods.
AIAA Journal, 47 (4), .
(doi:10.2514/1.38974).
Abstract
Uncertainties in the properties of joints produce uncertainties in the dynamic response of built-up structures. Line
joints, such as glued or continuously welded joints, have spatially distributed uncertainty and can be modeled by a
discretized random field. Techniques such as Monte Carlo simulation can be applied to estimate the output statistics,
but computational cost can be prohibitive. This paper addresses how uncertainties in joints might be included
straightforwardly in a finite element model, with particular reference to approaches based on fixed-interface (Craig–
Bampton) component mode synthesis and a stochastic reduced basis method with two variants. These methods are
used to determine the output statistics of a structure. Unlike perturbation-based methods, good accuracy can be
achieved even when the coefficients of variation of the input random variables are not small. Undamped as well as
proportionally damped components are considered. Efficient implementations are proposed based on an exact
matrix identity that leads to a significantly lower computational cost if the number of joint degrees of freedom is
sufficiently small compared with the structure’s overall number of degrees of freedom. A numerical example is
presented. The proposed formulation is an efficient and effective implementation of a stochastic reduced basis
projection scheme. It is seen that the method can be up to orders of magnitude faster than direct Monte Carlo
simulation, while providing results of comparable accuracy. Furthermore, the proposed implementation is more
efficient when fewer joints are affected by uncertainty.
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Published date: 2009
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Local EPrints ID: 71468
URI: http://eprints.soton.ac.uk/id/eprint/71468
ISSN: 0001-1452
PURE UUID: 05156821-0fff-4c64-9e36-36330a304f97
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Date deposited: 29 Jan 2010
Last modified: 14 Mar 2024 02:32
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F. Dohnal
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