28619
20131002113957.0
oai:doc.rero.ch:20120229084549-BI
rero_explore
postprint
unifr
dissertation
cdu1
preprint
cdu16
journal
cdu51
book
thesis
report
thesis_urn
cdu34
eng
51
Klein, Georges
Department of Mathematics, University of Fribourg, Switzerland
eng
Linear barycentric rational quadrature
2011-09-24
eng
Linear interpolation schemes very naturally lead to quadrature rules. Introduced in the eighties, linear barycentric rational interpolation has recently experienced a boost with the presentation of new weights by Floater and Hormann. The corresponding interpolants converge in principle with arbitrary high order of precision. In the present paper we employ them to construct two linear rational quadrature rules. The weights of the first are obtained through the direct numerical integration of the Lagrange fundamental rational functions; the other rule, based on the solution of a simple boundary value problem, yields an approximation of an antiderivative of the integrand.The convergence order in the first case is shown to be one unit larger than that of the interpolation, under some restrictions. We demonstrate the efficiency of both approaches with numerical tests.
eng
Rational interpolation ; barycentric form ; quadrature
Berrut, Jean-Paul
Department of Mathematics, University of Fribourg, Switzerland
Bit Numerical Mathematics
2012/52/2/407-424
http://dx.doi.org/10.1007/s10543-011-0357-x
Published version
kle_lbr.pdf
application/pdf
237533
http://doc.rero.ch/record/28619/files/kle_lbr.pdf
order:1
pdf
Faculté des sciences
Mathématiques
Décanat, Ch. du Musée 6A, 1700 Fribourg
Université de Fribourg
Fribourg
doc.support@rero.ch
POSTPRINT
UNIFR
ART_JOURNAL
20120229084549-BI