Equivalent characterizations of partial randomness for a recursively enumerable real (0805.2691v1)

Abstract: A real number \alpha is called recursively enumerable if there exists a computable, increasing sequence of rational numbers which converges to \alpha. The randomness of a recursively enumerable real \alpha can be characterized in various ways using each of the notions; program-size complexity, Martin-L\"{o}f test, Chaitin's \Omega number, the domination and \Omega-likeness of \alpha, the universality of a computable, increasing sequence of rational numbers which converges to \alpha, and universal probability. In this paper, we generalize these characterizations of randomness over the notion of partial randomness by parameterizing each of the notions above by a real number T\in(0,1]. We thus present several equivalent characterizations of partial randomness for a recursively enumerable real number.