Laurent-Padé approximants to four kinds of Chebyshev polynomial expansions. Part II: Clenshaw-Lord type approximants |
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Authors: | J. C. Mason A. Crampton |
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Affiliation: | (1) School of Computing and Engineering, University of Huddersfield, HD1 3DH Queensgate, Huddersfield, UK |
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Abstract: | Laurent-Padé (Chebyshev) rational approximantsP m (w, w −1)/Q n (w, w −1) of Clenshaw-Lord type [2,1] are defined, such that the Laurent series ofP m /Q n matches that of a given functionf(w, w −1) up to terms of orderw ±(m+n) , based only on knowledge of the Laurent series coefficients off up to terms inw ±(m+n) . This contrasts with the Maehly-type approximants [4,5] defined and computed in part I of this paper [6], where the Laurent series ofP m matches that ofQ n f up to terms of orderw ±(m+n ), but based on knowledge of the series coefficients off up to terms inw ±(m+2n). The Clenshaw-Lord method is here extended to be applicable to Chebyshev polynomials of the 1st, 2nd, 3rd and 4th kinds and corresponding rational approximants and Laurent series, and efficient systems of linear equations for the determination of the Padé-Chebyshev coefficients are obtained in each case. Using the Laurent approach of Gragg and Johnson [4], approximations are obtainable for allm≥0,n≥0. Numerical results are obtained for all four kinds of Chebyshev polynomials and Padé-Chebyshev approximants. Remarkably similar results of formidable accuracy are obtained by both Maehly-type and Clenshaw-Lord type methods, thus validating the use of either. |
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Keywords: | Chebyshev series Laurent series Laurent-Padé approximant Chebyshev-Padé approximant Clenshaw-Lord approximant end-point singularities |
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