On the Complexity of Interpolation by Polynomials with Non-negative Real Coefficients

Abstract

In this paper, we consider interpolation by completely monotonous polynomials (CMPs for short), that is, polynomials with non-negative real coefficients. In particular, given a finite set S⊂ R>0 × R≥ 0, we consider the minimal polynomial of S, introduced by Berg [1985], which is `minimal,' in the sense that it is eventually majorized by all the other CMPs interpolating S. We give an upper bound of the degree of the minimal polynomial of S when it exists. Furthermore, we give another algorithm for computing the minimal polynomial of given S which utilizes an order structure on sign sequences. Applying the upper bound above, we also analyze the computational complexity of algorithms for computing minimal polynomials including ours.