AbstractThe main goal of this paper is to compare recursive algorithms such as Turing machines with such super-recursive algorithms as inductive Turing machines. This comparison is made in a general setting of dual complexity measures such as Kolmogorov or algorithmic complexity. To make adequate comparison, we reconsider the standard axiomatic approach to complexity of algorithms. The new approach allows us to achieve a more adequate representation of static system complexity in the axiomatic context. It is demonstrated that for solving many problems inductive Turing machines have much lower complexity than Turing machines and other recursive algorithms. Thus, inductive Turing machines are not only more powerful, but also more efficient th...
The field of computational complexity theory--which chiefly aims to quantify the difficulty encounte...
What does it mean to say that some computational problem is intrinsically more difficult than some o...
We preliminarily recap what is meant by complexity and non-Turing computation, by way of explanation...
AbstractThe main goal of this paper is to compare recursive algorithms such as Turing machines with ...
The main goal of this paper is to compare recursive algorithms such as Turing machines with such sup...
AbstractThere is a dependency between computability of algorithmic complexity and decidability of di...
Induction is a prevalent cognitive method in science while inductive computations are popular in ma...
Kolmogorov Complexity constitutes an integral part of computability theory, information theory, and ...
The notion of the complexity of performing an inductive inference is defined. Some examples of the t...
The thesis aims to analyze some fundamental theoretical elements of Computability Theory and Computa...
Machines and Recursive Definitions 2.1 Abstract Machines The best-known model of mechanical comput...
AbstractVarious sets of Turing machines naturally occuring in the theory of computational complexity...
In this paper, the methods of recursive function theory are used to study the size (or cost or compl...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mathematics, 1972.Vita.Bibliography...
The field of computational complexity theory--which chiefly aims to quantify the difficulty encounte...
The field of computational complexity theory--which chiefly aims to quantify the difficulty encounte...
What does it mean to say that some computational problem is intrinsically more difficult than some o...
We preliminarily recap what is meant by complexity and non-Turing computation, by way of explanation...
AbstractThe main goal of this paper is to compare recursive algorithms such as Turing machines with ...
The main goal of this paper is to compare recursive algorithms such as Turing machines with such sup...
AbstractThere is a dependency between computability of algorithmic complexity and decidability of di...
Induction is a prevalent cognitive method in science while inductive computations are popular in ma...
Kolmogorov Complexity constitutes an integral part of computability theory, information theory, and ...
The notion of the complexity of performing an inductive inference is defined. Some examples of the t...
The thesis aims to analyze some fundamental theoretical elements of Computability Theory and Computa...
Machines and Recursive Definitions 2.1 Abstract Machines The best-known model of mechanical comput...
AbstractVarious sets of Turing machines naturally occuring in the theory of computational complexity...
In this paper, the methods of recursive function theory are used to study the size (or cost or compl...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mathematics, 1972.Vita.Bibliography...
The field of computational complexity theory--which chiefly aims to quantify the difficulty encounte...
The field of computational complexity theory--which chiefly aims to quantify the difficulty encounte...
What does it mean to say that some computational problem is intrinsically more difficult than some o...
We preliminarily recap what is meant by complexity and non-Turing computation, by way of explanation...