Article ID: | iaor2014219 |
Volume: | 65 |
Issue: | 1 |
Start Page Number: | 91 |
End Page Number: | 124 |
Publication Date: | Jan 2014 |
Journal: | Numerical Algorithms |
Authors: | Brilleaud Martine, Mazure Marie-Laurence |
Keywords: | splines, Chebyshev |
We recently obtained a criterion to decide whether a given space of parametrically continuous piecewise Chebyshevian splines (i.e., splines with pieces taken from different Extended Chebyshev spaces) could be used for geometric design. One important field of application is the class of L‐splines, that is, splines with pieces taken from the null space of some fixed real linear differential operator, generally investigated under the strong requirement that the null space should be an Extended Chebyshev space on the support of each possible B‐spline. In the present work, we want to show the practical interest of the criterion in question for designing with L‐splines. With this in view, we apply it to a specific class of linear differential operators with real constant coefficients and odd/even characteristic polynomials. We will thus establish necessary and sufficient conditions for the associated splines to be suitable for design. Because our criterion was achieved via a blossoming approach, shape preservation will be inherent in the obtained conditions. One specific advantage of the class of operators we consider is that hyperbolic and trigonometric functions can be mixed within the null space on which the splines are based. We show that this produces interesting shape effects.