Uncertain natural frequency analysis of composite plates including effect of noise – A polynomial neural network approach
Uncertain natural frequency analysis of composite plates including effect of noise – A polynomial neural network approach
This paper presents the quantification of uncertain natural frequency for laminated composite plates by using a novel surrogate model. A group method of data handling in conjunction to polynomial neural network (PNN) is employed as surrogate for numerical model and is trained by using Latin hypercube sampling. Subsequently the effect of noise on a PNN based uncertainty quantification algorithm is explored in this study. The convergence of the proposed algorithm for stochastic natural frequency analysis of composite plates is verified and validated with original finite element method (FEM). Both individual and combined variation of stochastic input parameters are considered to address the influence on the output of interest. The sample size and computational cost are reduced by employing the present approach compared to direct Monte Carlo simulation (MCS).
130-142
Dey, S.
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Naskar, S.
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Mukhopadhyay, T.
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Gohs, U.
6002714e-d36d-4c6a-90ff-07aec69cd375
Spickenheuer, A.
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Bittrich, L.
8a3a5e94-c79c-49d2-b5da-117dde70a815
Sriramula, S.
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Adhikari, S.
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Heinrich, G.
cd5678ce-b918-422b-b72e-c91a5318c180
Dey, S.
dc1f4ac8-911a-4395-83d4-d64af172587d
Naskar, S.
5f787953-b062-4774-a28b-473bd19254b1
Mukhopadhyay, T.
30a52c74-d9f7-4617-af88-32d44f07aca6
Gohs, U.
6002714e-d36d-4c6a-90ff-07aec69cd375
Spickenheuer, A.
e7c476b0-d14a-4aca-811e-fa05e6511226
Bittrich, L.
8a3a5e94-c79c-49d2-b5da-117dde70a815
Sriramula, S.
1f89db01-ff5c-4033-a39c-4df483fcba8c
Adhikari, S.
82960baf-916c-496e-aa85-fc7de09a1626
Heinrich, G.
cd5678ce-b918-422b-b72e-c91a5318c180
Dey, S., Naskar, S., Mukhopadhyay, T., Gohs, U., Spickenheuer, A., Bittrich, L., Sriramula, S., Adhikari, S. and Heinrich, G.
(2016)
Uncertain natural frequency analysis of composite plates including effect of noise – A polynomial neural network approach.
Composite Structures, 143, .
(doi:10.1016/j.compstruct.2016.02.007).
Abstract
This paper presents the quantification of uncertain natural frequency for laminated composite plates by using a novel surrogate model. A group method of data handling in conjunction to polynomial neural network (PNN) is employed as surrogate for numerical model and is trained by using Latin hypercube sampling. Subsequently the effect of noise on a PNN based uncertainty quantification algorithm is explored in this study. The convergence of the proposed algorithm for stochastic natural frequency analysis of composite plates is verified and validated with original finite element method (FEM). Both individual and combined variation of stochastic input parameters are considered to address the influence on the output of interest. The sample size and computational cost are reduced by employing the present approach compared to direct Monte Carlo simulation (MCS).
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e-pub ahead of print date: 13 February 2016
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Local EPrints ID: 450995
URI: http://eprints.soton.ac.uk/id/eprint/450995
ISSN: 0263-8223
PURE UUID: 6d0ca318-26e1-4a8d-a6ba-bd810c4fbad5
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Date deposited: 01 Sep 2021 16:31
Last modified: 17 Mar 2024 04:07
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Author:
S. Dey
Author:
T. Mukhopadhyay
Author:
U. Gohs
Author:
A. Spickenheuer
Author:
L. Bittrich
Author:
S. Sriramula
Author:
S. Adhikari
Author:
G. Heinrich
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