Add to ORKGAbstract: We consider the problem of the least-squares approximation on two-dimensional unstructured grids with 'bad' cells. We discuss how the accuracy of the least-squares approximation depends on the cell geometry. We analyze a simple geometry and demonstrate that introducing weight coefficients into the problem may help to essentially improve the accuracy of the least-squares approximation. Based on the results of our analysis, a heuristic choice of the weights in a general least-squares procedure is suggested. Our approach is illustrated by numerical tests.Note: Research direction:Mathematical problems and theory of numerical method
DoctoralThis course explains least squares optimization, nowadays a simple and well-mastered technol...
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A gradient recovery technique is proposed and analyzed for nite element solutions which provides new...
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Abstract: Discontinuous weighted least– squares (DWLS) approximation is a modification of a standard...
AbstractSurface interpolation finds application in many aspects of science and technology. Two speci...
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Abstract. The course presents an overview of the least-squares technique and its variants. A wide ra...
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This paper describes an iterative method which can be applied to geometrical problems in whicha larg...
The paper presents an improved moving least squares reconstruction technique for the Material Point ...
DoctoralThis course explains least squares optimization, nowadays a simple and well-mastered technol...
A gradient recovery technique is proposed and analyzed for finite element solutions which provides n...
A gradient recovery technique is proposed and analyzed for nite element solutions which provides new...
The accuracy of the least-squares technique for gradient reconstruction on unstructured meshes is ex...
Surface interpolation finds application in many aspects of science and technology. Two specific area...
Abstract: Discontinuous weighted least– squares (DWLS) approximation is a modification of a standard...
AbstractSurface interpolation finds application in many aspects of science and technology. Two speci...
An improvement is made to the traditional 2D integration with least squares method by introducing an...
Abstract. The course presents an overview of the least-squares technique and its variants. A wide ra...
The results of a numerical investigation into the errors for least squares estimates of function gra...
In previous work we introduced a construction to produce biorthogonal multiresolutions from given su...
An improved high resolution finite volume method based on linear and quadratic variable reconstructi...
Linear reconstruction based on local cell-averaged values is the most commonly adopted technique to ...
This paper describes an iterative method which can be applied to geometrical problems in whicha larg...
The paper presents an improved moving least squares reconstruction technique for the Material Point ...
DoctoralThis course explains least squares optimization, nowadays a simple and well-mastered technol...
A gradient recovery technique is proposed and analyzed for finite element solutions which provides n...
A gradient recovery technique is proposed and analyzed for nite element solutions which provides new...