A Variant Of Chaitin's Omega function

Abstract

We investigate the continuous function f defined by x ΣσL x 2-K(σ) as a variant of Chaitin's Omega from the perspective of analysis, computability, and algorithmic randomness. Among other results, we obtain that: (i) f is differentiable precisely at density random points; (ii) f(x) is x-random if and only if x is weakly low for K (low for ); (iii) the range of f is a null, nowhere dense, perfect 01(') class with Hausdorff dimension 1; (iv) f(x) xT' for all x; (v) there are 20 many x such that f(x) is not 1-random; (vi) f is not Turing invariant but is Turing invariant on the ideal of K-trivial reals. We also discuss the connection between f and other variants of Omega.