Results 291 to 300 of about 498,585 (338)
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Dual reciprocity boundary node method for convection-diffusion problems
Engineering Analysis With Boundary Elements, 2017Fei Yan, Min Yu, Jiahe Lv
exaly +2 more sources
SPE Journal, 2020
In this paper, we present a novel application of the dual-reciprocity boundary-element formulation (DRBEM) to model compressible (gas) fluid flow in tight and shale-gas reservoirs containing arbitrary distributed finite- or infinite-conductivity ...
Miao Zhang, L. Ayala
semanticscholar +1 more source
In this paper, we present a novel application of the dual-reciprocity boundary-element formulation (DRBEM) to model compressible (gas) fluid flow in tight and shale-gas reservoirs containing arbitrary distributed finite- or infinite-conductivity ...
Miao Zhang, L. Ayala
semanticscholar +1 more source
Piecewise Method of Reciprocal Averages for Dual Scaling of Multiple-Choice Data
Psychometrika, 1980The proposed method handles the classical method of reciprocal averages (MRA) in a piecewise (item-by-item) mode, whereby one can deal with smaller matrices and attain faster convergence to a solution than the MRA. A new concept “the principle of constant proportionality” is introduced to provide an interesting interpretation for scaling multiple ...
Nishisato, Shizuhiko, Sheu, Wen-Jenn
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A numerical solution for advection‐diffusion equation using dual reciprocity method
Numerical Methods for Partial Differential Equations, 2012AbstractThis article describes a numerical method based on the boundary integral equation and dual reciprocity method(DRM) for solving the one‐dimensional advection‐diffusion equations. The concept of DRM is used to convert the domain integral to the boundary that leads to an integration free method.
Shiva, Afshin, Adibi, Hojatollah
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A dual reciprocity multiwavelet Galerkin method for the numerical solution of Poisson׳s equation
Engineering Analysis with Boundary Elements, 2016zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Luo, Jianxin, Qiao, Rui, Li, Jing
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Some comments on the use of Radial Basis Functions in the Dual Reciprocity Method
Computational Mechanics, 1998zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Golberg, M. A. +3 more
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The use of dual reciprocity boundary element method in coupled thermoviscoelasticity
Computer Methods in Applied Mechanics and Engineering, 2006zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Baranoglu, Besim, Mengi, Yalcin
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Engineering analysis with boundary elements, 2018
In this paper, the boundary element method is reformulated using new complex Fourier shape functions for solving two-dimensional (2D) elastostatic and dynamic problems.
S. Hamzehei‐Javaran, N. Khaji
semanticscholar +1 more source
In this paper, the boundary element method is reformulated using new complex Fourier shape functions for solving two-dimensional (2D) elastostatic and dynamic problems.
S. Hamzehei‐Javaran, N. Khaji
semanticscholar +1 more source
Multidiscipline Modeling in Materials and Structures, 2019
Purpose The purpose of this paper is to describe further developments on a novel formulation of the boundary element method (BEM) for inelastic problems using the dual reciprocity method (DRM) but using object-oriented programming (OOP).
G. Gomes +3 more
semanticscholar +1 more source
Purpose The purpose of this paper is to describe further developments on a novel formulation of the boundary element method (BEM) for inelastic problems using the dual reciprocity method (DRM) but using object-oriented programming (OOP).
G. Gomes +3 more
semanticscholar +1 more source
Numerical Algorithms, 1999
This consistent paper presents a method for the general 2D and 3D scattered data interpolation problem. To solve these problems a biharmonic-type method is presented. The method does not require to solve large systems. This reduces the computational cost. Numerical examples are included and analysed statistically.
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This consistent paper presents a method for the general 2D and 3D scattered data interpolation problem. To solve these problems a biharmonic-type method is presented. The method does not require to solve large systems. This reduces the computational cost. Numerical examples are included and analysed statistically.
openaire +1 more source