Abstract
Recently an unexpected approximation property between polynomials of degree three and four was revealed within the framework of two-part approximation models in 2-norm, Chebyshev norm and Holladay seminorm. Namely, it was proved that if a two-component cubic Hermite spline’s first derivative at the shared knot is computed from the first derivative of a quartic polynomial, then the spline is a clamped spline of classC2and also the best approximant to the polynomial.Although it was known that a 2 × 2 component uniform bicubic Hermite spline is a clamped spline of classC2if the derivatives at the shared knots are given by the first derivatives of a biquartic polynomial, the optimality of such approximation remained an open question.The goal of this paper is to resolve this problem. Unlike the spline curves, in the case of spline surfaces it is insufficient to suppose that the grid should be uniform and the spline derivatives computed from a biquartic polynomial. We show that the biquartic polynomial coefficients have to satisfy some additional constraints to achieve optimal approximation by bicubic splines.
Highlights
A surprising property of polynomials within the framework of two-part models in case of function approximation has been found
Papers [1], [2] show that a two-component uniform cubic Hermite spline curve of class C1 by its definition will be of class C2, if its coefficients are computed from a corresponding quartic polynomial
This relation was later confirmed for 2 × 2 component bicubic splines and biquartic polynomials [3]
Summary
A surprising property of polynomials within the framework of two-part models in case of function approximation has been found. Papers [1], [2] show that a two-component uniform cubic Hermite spline curve of class C1 by its definition will be of class C2, if its coefficients are computed from a corresponding quartic polynomial. This relation was later confirmed for 2 × 2 component bicubic splines and biquartic polynomials [3].
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