Error Inequalities in Polynomial Interpolation and Their Applications

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Error Inequalities in Polynomial Interpolation and Their Applications

Paperback(Softcover reprint of the original 1st ed. 1993)

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Paperback(Softcover reprint of the original 1st ed. 1993)
$54.99

View All Available Formats & Editions

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This volume, which presents the cumulation of the authors' research in the field, deals with Lidstone, Hermite, Abel--Gontscharoff, Birkhoff, piecewise Hermite and Lidstone, spline and Lidstone--spline interpolating problems. Explicit representations of the interpolating polynomials and associated error functions are given, as well as explicit error inequalities in various norms. Numerical illustrations are provided of the importance and sharpness of the various results obtained. Also demonstrated are the significance of these results in the theory of ordinary differential equations such as maximum principles, boundary value problems, oscillation theory, disconjugacy and disfocality.
For mathematicians, numerical analysts, computer scientists and engineers.

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ISBN-13:	9789401048965
Publisher:	Springer Netherlands
Publication date:	10/26/2012
Series:	Mathematics and Its Applications , #262
Edition description:	Softcover reprint of the original 1st ed. 1993
Pages:	366
Product dimensions:	6.30(w) x 9.45(h) x 0.03(d)

1 Lidstone Interpolation.- 1.1 Introduction.- 1.2 Lidstone Polynomials.- 1.3 Interpolating Polynomial Representations.- 1.4 Error Representations.- 1.5 Error Estimates.- 1.6 Lidstone Boundary Value Problems.- References.- 2 Hermite Interpolation.- 2.1 Introduction.- 2.2 Interpolating Polynomial Representations.- 2.3 Error Representations.- 2.4 Error Estimates.- 2.5 Some Applications.- References.- 3 Abel 7#x2014; Gontscharoff Interpolation.- 3.1 Introduction.- 3.2 Interpolating Polynomial Representations.- 3.3 Error Representations.- 3.4 Error Estimates.- 3.5 Some Applications.- References.- 4 Miscellaneous Interpolation.- 4.1 Introduction.- 4.2 (n, p) and (p, n) Interpolation.- 4.3 (0, 0; m, n — m) Interpolation.- 4.4 (0; m, n — m) Interpolation.- 4.5 (0, 2, 0; m, n — m) Interpolation.- 4.6 (0 : l — 1, l : l + j — 1; m, n — m) Interpolation.- 4.7 (0; Lidstone) Interpolation.- 4.8 (0, 2, 0; Lidstone) Interpolation.- 4.9 (1, 3, 0, 1; Lidstone) Interpolation.- 4.10 (0 : l — 1, l : l + j — 1; Lidstone) Interpolation.- 4.11 (0, 2, 1; Lidstone) Interpolation.- References.- 5 Piecewise — Polynomial Interpolation.- 5.1 Introduction.- 5.2 Preliminaries.- 5.3 Piecewise Hermite Interpolation.- 5.4 Piecewise Lidstone Interpolation.- 5.5 Two Variable Piecewise Hermite Interpolation.- 5.6 Two Variable Piecewise Lidstone Interpolation.- References.- 6 Spline Interpolation.- 6.1 Introduction.- 6.2 Preliminaries.- 6.3 Cubic Spline Interpolation.- 6.4 Quintic Spline Interpolation:— = 4.- 6.5 Approximated Quintic Splines:— = 4.- 6.6 Quintic Spline Interpolation:— = 3.- 6.7 Approximated Quintic Splines:— = 3.- 6.8 Cubic Lidstone — Spline Interpolation.- 6.9 Quintic Lidstone — Spline Interpolation.- 6.10 L2 — Error Bounds for Spline Interpolation.- 6.11 TwoVariable Spline Interpolation.- 6.12 Two Variable Lidstone — Spline Interpolation.- 6.13 Some Applications.- References.- Name Index.

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