A discrete systems approach to cardinal spline Hermite interpolation Original Research Article

A cardinal spline Hermite interpolation problem is posed by specifying values, and m − 1 derivatives, m greater-or-equal, slanted 1, at uniformly spaced knots tk; it may be solved by means of a generalized spline function w(t) (a standard spline function when m = 1), piecewise a polynomial of degree n − 1 = 2m + p − 1, p greater-or-equal, slanted 0, with w(j)(t) continuous across the knots for j = 0, 1, 2, … , m + p − 1. The problem is studied here for p > 0 in the context of an (m + p)-dimensional system of linear recursion equations satisfied by the values of the m-th through m + p − 1-st derivatives of w(t) at the knots, whose homogeneous term involves a p × p matrix A . In the case m = 1 we relate the characteristic polynomial of A and certain controllability notions to the standard B-spline and we proceed to show how systems-theoretic ideas can be used to generate systems of basis splines for higher values of m.