FAST AND STABLE RATIONAL INTERPOLATION IN ROOTS OF UNITY AND CHEBYSHEV POINTS

FAST AND STABLE RATIONAL INTERPOLATION IN ROOTS OF UNITY AND CHEBYSHEV POINTS

A new method for interpolation by rational functions of prescribed numerator and denominator degrees is presented. When the interpolation nodes are roots of unity or Chebyshev points, the algorithm is particularly simple and relies on discrete Fourier transform matrices, which results in a fast impl...

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Veröffentlicht in:SIAM journal on numerical analysis 2012-01, Vol.50 (3), p.1713-1734
Hauptverfasser: PACHÓN, RICARDO, GONNET, PEDRO, VAN DEUN, JORIS
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Approximation
Coefficients
Fourier transforms
Interpolation
Mathematical functions
Mathematical vectors
Matrices
Methods
Polynomials
Rational functions
Zero
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Zusammenfassung:A new method for interpolation by rational functions of prescribed numerator and denominator degrees is presented. When the interpolation nodes are roots of unity or Chebyshev points, the algorithm is particularly simple and relies on discrete Fourier transform matrices, which results in a fast implementation using the fast Fourier transform. The method is generalized for arbitrary grids, which requires the construction of polynomials orthogonal on the set of interpolation nodes. The appearance of common factors in the numerator and denominator due to finite-precision arithmetic is explained by the behavior of the singular values of the linear system associated with the rational interpolation problem. The new algorithm has connections with other methods, particularly the work of Jacobi and Kronecker, Berrut and Mittelmann, and Egecioglu and Koç. Short MATLAB codes and numerical experiments are included.
ISSN:0036-1429
1095-7170
DOI:10.1137/100797291