Increasing-decreasing patterns in the iteration of an arithmetic function

Abstract

Let be a set of positive integers and let f: → be an arithmetic function. Let V = (vi)i=1n be a finite sequence of positive integers. An integer m ∈ has increasing-decreasing pattern V with respect to f if, for all odd integers i ∈ \1,…, n\, \[ fv1+ ·s + vi-1(m) < fv1+ ·s + vi-1+1(m) < ·s < fv1+ ·s + vi-1+vi(m) \] and, for all even integers i ∈ \2,…, n\, \[ fv1+ ·s + vi-1(m) > fv1+ ·s +vi-1+1(m) > ·s > fv1+ ·s +vi-1+vi(m). \] The arithmetic function f is wildly increasing-decreasing if, for every finite sequence V of positive integers, there exists an integer m ∈ such that m has increasing-decreasing pattern V with respect to f. This paper gives a proof that the Syracuse function is wildly increasing-decreasing.