This thesis establishes results in several different areas of computability theory. The first chapter is concerned with algorithmic randomness. A well-known approach to the definition of a random infinite binary sequence is via effective betting strategies. A betting strategy is called integer-valued if it can bet only in integer amounts. We consider integer-valued random sets, which are infinite binary sequences such that no effective integer-valued betting strategy wins arbitrarily much money betting on the bits of the sequence. This is a notion that is much weaker than those normally considered in algorithmic randomness. It is sufficiently weak to allow interesting interactions with topics from classical computability theory, such as ge...
Abstract. Every K-trivial set is computable from an incomplete Martin-Löf random set, i.e., a Marti...
In this dissertation we consider two different notions of randomness and their applica-tions to prob...
In this dissertation we consider two different notions of randomness and their applications to probl...
This thesis establishes results in several different areas of computability theory. The first chapt...
In this paper we apply some elementary computability-theoretic notions to algorithmic complexity the...
This thesis establishes significant new results in the area of algorithmic randomness. These results...
AbstractIn this paper we apply some elementary computability-theoretic notions to algorithmic comple...
Let R be a notion of algorithmic randomness for individual subsets of N. We say B is a base for R ra...
Abstract. In the theory of algorithmic randomness, one of the central notions is that of computable ...
Algorithmic randomness uses computability theory to define notions of randomness for infinite object...
Graduation date:2018In this thesis I will look at a definition of computable randomness from Algorit...
Abstract. We compare various notions of algorithmic randomness. First we consider relativized random...
Abstract. We prove a number of results in effective randomness, using methods in which Π01 classes p...
This dissertation develops connections between algorithmic randomness and computable analysis. In th...
Abstract. Every K-trivial set is computable from an incomplete Martin-Löf random set, i.e., a Marti...
Abstract. Every K-trivial set is computable from an incomplete Martin-Löf random set, i.e., a Marti...
In this dissertation we consider two different notions of randomness and their applica-tions to prob...
In this dissertation we consider two different notions of randomness and their applications to probl...
This thesis establishes results in several different areas of computability theory. The first chapt...
In this paper we apply some elementary computability-theoretic notions to algorithmic complexity the...
This thesis establishes significant new results in the area of algorithmic randomness. These results...
AbstractIn this paper we apply some elementary computability-theoretic notions to algorithmic comple...
Let R be a notion of algorithmic randomness for individual subsets of N. We say B is a base for R ra...
Abstract. In the theory of algorithmic randomness, one of the central notions is that of computable ...
Algorithmic randomness uses computability theory to define notions of randomness for infinite object...
Graduation date:2018In this thesis I will look at a definition of computable randomness from Algorit...
Abstract. We compare various notions of algorithmic randomness. First we consider relativized random...
Abstract. We prove a number of results in effective randomness, using methods in which Π01 classes p...
This dissertation develops connections between algorithmic randomness and computable analysis. In th...
Abstract. Every K-trivial set is computable from an incomplete Martin-Löf random set, i.e., a Marti...
Abstract. Every K-trivial set is computable from an incomplete Martin-Löf random set, i.e., a Marti...
In this dissertation we consider two different notions of randomness and their applica-tions to prob...
In this dissertation we consider two different notions of randomness and their applications to probl...