In this paper, a dynamic model of computation based on the Universal Turing Machine is proposed. This model is capable of applying runtime code modifications for 3-symbol deterministic Turing Machines at runtime and requires a decomposition of the simulated machine into parts called subtasks. The algorithm for performing runtime changes is considered, and the ability to apply runtime changes is studied through computer simulations. Theoretical properties of the proposed model, including computational power as well as time and space complexity, are studied and proven. Connections between the proposed model and Oracle Machines are discussed. Moreover, a possible method of implementation in real-life systems is proposed
AbstractThe principal ideas of a universal computer are gradually introduced into a functional model...
We prove the Extended Church-Turing Thesis: Every effective algorithm can be efficiently simulated b...
(eng) We explore the simulation and computational capabilities of dynamical systems. We first introd...
In this paper, a dynamic model of computation based on the Universal Turing Machine is proposed. Thi...
Tyt. z nagłówka.Bibliogr. s. 309-310.In this paper, the problem of applying changes to software at r...
In this paper, the problem of applying changes to software at runtime is considered. The computabili...
This paper presents Persistent Turing Machines (PTMs), a new way of interpret-ing Turing-machine com...
Abstract—The classical Turing machine model has defects in centralized control, sequential and deter...
AbstractThis paper presents persistent Turing machines (PTMs), a new way of interpreting Turing-mach...
Turing machines have been well studided in the context of Computability theory, looking at computati...
Title: Universal Turing machine Author: Viktor Bahýľ Department: Department of Algebra Supervisor: R...
A computer is classically formalised as a universal Turing machine or a similar device. However over...
The diploma work presents the Turing machine, its use and functionality. The Turing machine is not a...
Evolving systems are systems that change over time. Examples of evolving systems are computers with ...
In the early 90’s, mathematicians were tiresome to design an operative computation model headed for ...
AbstractThe principal ideas of a universal computer are gradually introduced into a functional model...
We prove the Extended Church-Turing Thesis: Every effective algorithm can be efficiently simulated b...
(eng) We explore the simulation and computational capabilities of dynamical systems. We first introd...
In this paper, a dynamic model of computation based on the Universal Turing Machine is proposed. Thi...
Tyt. z nagłówka.Bibliogr. s. 309-310.In this paper, the problem of applying changes to software at r...
In this paper, the problem of applying changes to software at runtime is considered. The computabili...
This paper presents Persistent Turing Machines (PTMs), a new way of interpret-ing Turing-machine com...
Abstract—The classical Turing machine model has defects in centralized control, sequential and deter...
AbstractThis paper presents persistent Turing machines (PTMs), a new way of interpreting Turing-mach...
Turing machines have been well studided in the context of Computability theory, looking at computati...
Title: Universal Turing machine Author: Viktor Bahýľ Department: Department of Algebra Supervisor: R...
A computer is classically formalised as a universal Turing machine or a similar device. However over...
The diploma work presents the Turing machine, its use and functionality. The Turing machine is not a...
Evolving systems are systems that change over time. Examples of evolving systems are computers with ...
In the early 90’s, mathematicians were tiresome to design an operative computation model headed for ...
AbstractThe principal ideas of a universal computer are gradually introduced into a functional model...
We prove the Extended Church-Turing Thesis: Every effective algorithm can be efficiently simulated b...
(eng) We explore the simulation and computational capabilities of dynamical systems. We first introd...