Author: Quraishi S. Sandeep K.
Publisher: Springer Publishing Company
ISSN: 0022-0833
Source: Journal of Engineering Mathematics, Vol.83, Iss.1, 2013-12, pp. : 185-202
Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.
Abstract
We have designed bicubic Hermite-type finite-element wavelets that decouple the multiresolution stiffness matrix obtained from the discretization of the biharmonic equation. The scale decoupling basis makes the stiffness matrix block diagonal and hence eliminates the coupling between scales. The scale-decoupled system leads to an incremental procedure for systematic enrichment of the solution without the need for costly remeshing of the whole domain and recalculation of the solution. The solution is obtained by injection of finer-scale wavelets at locations with high detail coefficients. We conducted some numerical experiments to demonstrate the customized wavelet-based finite-element method for the problem of bending of Euler’s beam and Kirchhoff’s plates; we also demonstrate the role of wavelets in resolving localized phenomena.
Related content
Access to resources
Recommend
Multiscale modeling of the acoustic properties of lungparenchyma
ESAIM: Proceedings, Vol. 23, Iss. issue, 2008-01 ,pp. :
Modeling and analysis of multilayer laminated plates
ESAIM: Proceedings, Vol. 4, Iss. issue, 1998-01 ,pp. :