#### Publication Date

4-2002

#### Abstract

The basic problem of interval computations is: given a function f(x1,...,xn) and n intervals [xi-,xi+], find the (interval) range Y of the given function on the given intervals. It is known that even for quadratic polynomials f(x1,...,xn), this problem is NP-hard. In this paper, following the advice of A. Neumaier, we analyze the complexity of asymptotic range estimation, when the bound "epsilon" on the width of the input intervals tends to 0. We show that for small c>0, if we want to compute the range with an accuracy c times epsilon squared, then the problem is still NP-hard; on the other hand, for every delta>0, there exists a feasible algorithm which asymptotically, estimates the range with an accuracy c times epsilon to the power 2-delta.

*original file:UTEP-CS-99-45*

## Comments

UTEP-CS-99-45a.

Published in

Reliable Computing, 2002, Vol. 8, No. 6, pp. 481-491.