An isogeometric collocation method for efficient random field discretization

Ramin Jahanbin; Sharif Rahman

doi:10.1002/nme.5959

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An isogeometric collocation method for efficient random field discretization

Journal article

Peer reviewed

An isogeometric collocation method for efficient random field discretization

Ramin Jahanbin and Sharif Rahman

International journal for numerical methods in engineering, Vol.117(3), pp.344-369

01/20/2019

DOI: 10.1002/nme.5959

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Abstract

Summary This paper presents an isogeometric collocation method for a computationally expedient random field discretization by means of the Karhunen‐Loève expansion. The method involves a collocation projection onto a finite‐dimensional subspace of continuous functions over a bounded domain, basis splines (B‐splines) and nonuniform rational B‐splines (NURBS) spanning the subspace, and standard methods of eigensolutions. Similar to the existing Galerkin isogeometric method, the isogeometric collocation method preserves an exact geometrical representation of many commonly used physical or computational domains and exploits the regularity of isogeometric basis functions delivering globally smooth eigensolutions. However, in the collocation method, the construction of the system matrices for a d‐dimensional eigenvalue problem asks for at most d‐dimensional domain integrations, as compared with 2d‐dimensional integrations required in the Galerkin method. Therefore, the introduction of the collocation method for random field discretization offers a huge computational advantage over the existing Galerkin method. Three numerical examples, including a three‐dimensional random field discretization problem, illustrate the accuracy and convergence properties of the collocation method for obtaining eigensolutions.

B‐splines

Fredholm integral eigenvalue problem

Karhunen‐Loève expansion

NURBS

uncertainty quantification

Details

Title: Subtitle: An isogeometric collocation method for efficient random field discretization
Creators: Ramin Jahanbin - University of Iowa
Sharif Rahman - University of Iowa
Resource Type: Journal article
Publication Details: International journal for numerical methods in engineering, Vol.117(3), pp.344-369
DOI: 10.1002/nme.5959
ISSN: 0029-5981
eISSN: 1097-0207
Number of pages: 26
Grant note: U.S. National Science Foundation (CMMI-1607398)
Language: English
Date published: 01/20/2019
Academic Unit: Mechanical Engineering
Record Identifier: 9984196503202771

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