Computing the Conley Index: a Cautionary Tale

Abstract

This paper concerns the computation and identification of the (homological) Conley index over the integers, in the context of discrete dynamical systems generated by continuous maps. We discuss the significance with respect to nonlinear dynamics of using integer, as opposed to field, coefficients. We translate the problem into the language of commutative ring theory. More precisely, we relate shift equivalence in the category of finitely generated abelian groups to the classification of Z[t]-modules whose underlying abelian group is given. We provide tools to handle the classification problem, but also highlight the associated computational challenges.