AbstractWe study the computational complexity of several problems with the evolution of configurations on finite cellular automata. In many cases, the problems turn out to be complete in their respective classes. For example, the problem of deciding whether a configuration has a predecessor is shown to be NLOG-complete for one-dimensional cellular automata. The problem is NP-complete for all dimensions higher than one. Similarly, the question whether a target configuration occurs in the orbit of a source configuration may be P-complete, NP-complete or PSPACE-complete, depending on the type of cellular automaton
The goal of this master thesis is to examine possibilities of realizing comptutational structures in...
This volume of the Encyclopedia of Complexity and Systems Science, Second Edition, provides an autho...
In literature, there have been specific one-dimensional and two-dimensional cellular automata such ...
Abstract. We study computational properties of linear cellular automata on configurations that diffe...
International audienceThis paper studies three classes of cellular automata from a computational poi...
A configuration is said to be with finite support if the states of all but fintely many cells in the...
5siCellular Automata (CA) are a well-established bio-inspired model of computation that has been suc...
Abstract. Cellular Automata can be considered discrete dynamical sys-tems and at the same time a mod...
This paper is about µ-limit sets of cellular automata, i.e. sets of configurations made of words whi...
AbstractCellular Automata can be considered discrete dynamical systems and at the same time a model ...
AbstractIn this paper, we prove the co-NP-completeness of the following decision problem: “Given a t...
Abstract. We study the orbits of reversible one-dimensional cellular automata. It is shown that the ...
The general theory of cellular automata is investigated with special attention to structural complex...
AbstractThe notions of universality and completeness are central in the theories of computation and ...
We investigate the computational capacities of finite and infinite elementary cellular automata in l...
The goal of this master thesis is to examine possibilities of realizing comptutational structures in...
This volume of the Encyclopedia of Complexity and Systems Science, Second Edition, provides an autho...
In literature, there have been specific one-dimensional and two-dimensional cellular automata such ...
Abstract. We study computational properties of linear cellular automata on configurations that diffe...
International audienceThis paper studies three classes of cellular automata from a computational poi...
A configuration is said to be with finite support if the states of all but fintely many cells in the...
5siCellular Automata (CA) are a well-established bio-inspired model of computation that has been suc...
Abstract. Cellular Automata can be considered discrete dynamical sys-tems and at the same time a mod...
This paper is about µ-limit sets of cellular automata, i.e. sets of configurations made of words whi...
AbstractCellular Automata can be considered discrete dynamical systems and at the same time a model ...
AbstractIn this paper, we prove the co-NP-completeness of the following decision problem: “Given a t...
Abstract. We study the orbits of reversible one-dimensional cellular automata. It is shown that the ...
The general theory of cellular automata is investigated with special attention to structural complex...
AbstractThe notions of universality and completeness are central in the theories of computation and ...
We investigate the computational capacities of finite and infinite elementary cellular automata in l...
The goal of this master thesis is to examine possibilities of realizing comptutational structures in...
This volume of the Encyclopedia of Complexity and Systems Science, Second Edition, provides an autho...
In literature, there have been specific one-dimensional and two-dimensional cellular automata such ...