Efficient Computation of the Kauffman Bracket

Abstract

This paper bounds the computational cost of computing the Kauffman bracket of a link in terms of the crossing number of that link. Specifically, it is shown that the image of a tangle with g boundary points and n crossings in the Kauffman bracket skein module is a linear combination of O(2g) basis elements, with each coefficient a polynomial with at most n nonzero terms, each with integer coefficients, and that the link can be built one crossing at a time as a sequence of tangles with maximum number of boundary points bounded by Cn for some C. From this it follows that the computation of the Kauffman bracket of the link takes time and memory a polynomial in n times 2Cn.