A look-ahead strategy for the implementation of some old and new extrapolation methods
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Publication:1911439
DOI10.1007/BF02142487zbMath0851.65002MaRDI QIDQ1911439
Claude Brezinski, Michela Redivo-Zaglia
Publication date: 28 April 1996
Published in: Numerical Algorithms (Search for Journal in Brave)
orthogonal polynomialsnumerical stabilitysequence transformationextrapolation methodscontraction of continued fractions
Orthogonal functions and polynomials, general theory of nontrigonometric harmonic analysis (42C05) Extrapolation to the limit, deferred corrections (65B05)
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- Padé-type approximation and general orthogonal polynomials
- On the partial realization problem
- Prolégomènes à l'étude des polynômes orthogonaux semi- classiques. (Preliminary remarks for the study of semi-classical orthogonal polynomials)
- A general extrapolation algorithm
- Avoiding breakdown in the CGS algorithm
- A new presentation of orthogonal polynomials with applications to their computation
- Extrapolation methods theory and practice
- Addendum to ``Avoiding breakdown and near-breakdown in Lanczos type algorithms
- Matrix interpretations and applications of the continued fraction algorithm
- Rational interpolation via orthogonal plynomials
- A look-ahead algorithm for the solution of general Hankel systems
- A composite step bi-conjugate gradient algorithm for nonsymmetric linear systems
- A composite step conjugate gradients squared algorithm for solving nonsymmetric linear systems
- Treatment of near-breakdown in the CGS algorithm
- Lanczos-type algorithms for solving systems of linear equations
- Polynômes orthogonaux formels - applications
- Formal orthogonal polynomials revisited. Applications
- CGS, A Fast Lanczos-Type Solver for Nonsymmetric Linear systems
- A Completed Theory of the Unsymmetric Lanczos Process and Related Algorithms, Part I
- Generalized neville type extrapolation schemes
- A GENERAL SYSTEM OF ORTHOGONAL POLYNOMIALS
- Higher OrderG-Transformation
- The Padé Table and Its Relation to Certain Algorithms of Numerical Analysis
- An Algorithm for the Computation of the Higher OrderG-Transformation
- On a Device for Computing the e m (S n ) Transformation
