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Extended multidimensional integration formulas on polytope meshes. / Guessab, Allal; Semisalov, Boris.
в: SIAM Journal on Scientific Computing, Том 41, № 5, 01.01.2019, стр. A3152-A3181.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
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TY - JOUR
T1 - Extended multidimensional integration formulas on polytope meshes
AU - Guessab, Allal
AU - Semisalov, Boris
PY - 2019/1/1
Y1 - 2019/1/1
N2 - In this paper, we consider a general decomposition of any convex polytope P \subset \BbbR n into a set of subpolytopes \Omega i and develop methods for approximating a definite integral of a given function f over P when, rather than its values at some points, a number of integrals of f over the faces of \Omega i are only available. We present several new families of extended integration formulas that contain such integrals and provide in a special case of our result the multivariate analogues of midpoint, trapezoidal, Hammer, and Simpson rules. The paper also presents the best possible explicit constants for their approximation errors. Here we succeed in finding the connection between minimization of the global error estimate and construction of centroidal Voronoi tessellations of a given polytope with special density function depending on properties of the integrand. In the case of integrands with strong singularities, it leads to essential reduction of the error. These ideas were extended to a more general case, in which the domain is not necessary polytope and is not necessary convex. We perform numerical tests with integrands having steep gradients which allow the comparison of the new cubature formulas and show their accuracy and rates of convergence.
AB - In this paper, we consider a general decomposition of any convex polytope P \subset \BbbR n into a set of subpolytopes \Omega i and develop methods for approximating a definite integral of a given function f over P when, rather than its values at some points, a number of integrals of f over the faces of \Omega i are only available. We present several new families of extended integration formulas that contain such integrals and provide in a special case of our result the multivariate analogues of midpoint, trapezoidal, Hammer, and Simpson rules. The paper also presents the best possible explicit constants for their approximation errors. Here we succeed in finding the connection between minimization of the global error estimate and construction of centroidal Voronoi tessellations of a given polytope with special density function depending on properties of the integrand. In the case of integrands with strong singularities, it leads to essential reduction of the error. These ideas were extended to a more general case, in which the domain is not necessary polytope and is not necessary convex. We perform numerical tests with integrands having steep gradients which allow the comparison of the new cubature formulas and show their accuracy and rates of convergence.
KW - Approximation
KW - Best error estimates
KW - Centroidal Voronoi tessellation
KW - Convexity
KW - Cubature formulas
KW - Singularity of integrand
KW - approximation
KW - centroidal Voronoi tessellation
KW - convexity
KW - singularity of integrand
KW - best error estimates
KW - cubature formulas
KW - CONVEX
KW - NUMERICAL-INTEGRATION
UR - http://www.scopus.com/inward/record.url?scp=85074712261&partnerID=8YFLogxK
U2 - 10.1137/18M1234564
DO - 10.1137/18M1234564
M3 - Article
AN - SCOPUS:85074712261
VL - 41
SP - A3152-A3181
JO - SIAM Journal on Scientific Computing
JF - SIAM Journal on Scientific Computing
SN - 1064-8275
IS - 5
ER -
ID: 22338444