Your search keyword '"non-deterministic automaton"' showing total 5 results

1. One Drop of Non-Determinism in a Random Deterministic Automaton

Author

Carayol, Arnaud, Duchon, Philippe, Koechlin, Florent, and Nicaud, Cyril

Subjects

powerset construction, Mathematics of computing → Probability and statistics, probabilistic analysis, Theory of computation → Regular languages, Mathematics of computing → Combinatorics, non-deterministic automaton

Abstract

Every language recognized by a non-deterministic finite automaton can be recognized by a deterministic automaton, at the cost of a potential increase of the number of states, which in the worst case can go from n states to 2ⁿ states. In this article, we investigate this classical result in a probabilistic setting where we take a deterministic automaton with n states uniformly at random and add just one random transition. These automata are almost deterministic in the sense that only one state has a non-deterministic choice when reading an input letter. In our model each state has a fixed probability to be final. We prove that for any d ≥ 1, with non-negligible probability the minimal (deterministic) automaton of the language recognized by such an automaton has more than n^d states; as a byproduct, the expected size of its minimal automaton grows faster than any polynomial. Our result also holds when each state is final with some probability that depends on n, as long as it is not too close to 0 and 1, at distance at least Ω(1/√n) to be precise, therefore allowing models with a sublinear number of final states in expectation., LIPIcs, Vol. 254, 40th International Symposium on Theoretical Aspects of Computer Science (STACS 2023), pages 19:1-19:14

Published

2023

2. A description based on languages of the final non-deterministic automaton.

Author

Ballester-Bolinches, A., Cosme-Llópez, E., and Esteban-Romero, R.

Subjects

*PROGRAMMING languages, *MACHINE theory, *COMPUTER systems, *ALGEBRA, *INFORMATION theory, *COMPUTER science

Abstract

Abstract: The study of the behaviour of non-deterministic automata has traditionally focused on the languages which can be associated to the different states. Under this interpretation, the different branches that can be taken at every step are ignored. However, we can also take into account the different decisions which can be made at every state, that is, the branches that can be taken, and these decisions might change the possible future behaviour. In this case, the behaviour of the automata can be described with the help of the concept of bisimilarity. This is the kind of description that is usually obtained when the automata are regarded as labelled transition systems or coalgebras. Contrarily to what happens with deterministic automata, it is not possible to describe the behaviour up to bisimilarity of states of a non-deterministic automaton by considering just the languages associated to them. In this paper we present a description of a final object for the category of non-deterministic automata, regarded as labelled transition systems, with the help of some structures defined in terms of languages. As a consequence, we obtain a characterisation of bisimilarity of states of automata in terms of languages and a method to minimise non-deterministic automata with respect to bisimilarity of states. This confirms that languages can be considered as the natural objects to describe the behaviour of automata. [Copyright &y& Elsevier]

Published

2014

3. Generating boxes from ordered sets and graphs.

Author

Pouzet, Maurice, Woodrow, Robert, and Zaguia, Nejib

Abstract

Let E be a set and let L be a family of subsets of E. A subset s of E is called a transversal of L if s intersects each member of L in exactly one element, that is | s∩ l|=1, for every l in L. We denote T(L) the set of all transversals of L. A pair B=(L, C) of families of subsets of E is a box on E if it satisfies the following conditions: Boxes have been introduced by Boë [2]. Our aim in this paper is to study particular boxes, using techniques of ordered sets and graphs. [ABSTRACT FROM AUTHOR]

Published

1992

4. A description based on languages of the final non-deterministic automaton

Author

Ramon Esteban-Romero, Enric Cosme-Llópez, and Adolfo Ballester-Bolinches

Subjects

Nested word, Theoretical computer science, General Computer Science, Timed automaton, Llenguatges de programació, ω-automaton, Theoretical Computer Science, Deterministic pushdown automaton, Coalgebra, Final automaton, Deterministic automaton, Quantum finite automata, Automatització, Computer Science::Databases, Mathematics, Discrete mathematics, Nonlinear Sciences::Cellular Automata and Lattice Gases, Non-deterministic automaton, Mobile automaton, Bisimilarity, Computer Science::Programming Languages, Automata theory, Formal language, Àlgebra, MATEMATICA APLICADA, Computer Science::Formal Languages and Automata Theory

Abstract

The study of the behaviour of non-deterministic automata has traditionally focused on the languages which can be associated to the different states. Under this interpretation, the different branches that can be taken at every step are ignored. However, we can also take into account the different decisions which can be made at every state, that is, the branches that can be taken, and these decisions might change the possible future behaviour. In this case, the behaviour of the automata can be described with the help of the concept of bisimilarity. This is the kind of description that is usually obtained when the automata are regarded as labelled transition systems or coalgebras. Contrarily to what happens with deterministic automata, it is not possible to describe the behaviour up to bisimilarity of states of a non-deterministic automaton by considering just the languages associated to them. In this paper we present a description of a final object for the category of non-deterministic automata, regarded as labelled transition systems, with the help of some structures defined in terms of languages. As a consequence, we obtain a characterisation of bisimilarity of states of automata in terms of languages and a method to minimise non-deterministic automata with respect to bisimilarity of states. This confirms that languages can be considered as the natural objects to describe the behaviour of automata. (C) 2014 Elsevier B.V. All rights reserved., This work has been supported by the grant MTM2010-19938-C03-01 from the Ministerio de Ciencia e Innovacion (Spanish Government). The first author has been supported by a research project from the National Natural Science Foundation of China (NSFC, No. 11271085). The second author has been supported by the predoctoral grant AP2010-2764 from the Ministerio de Educacion (Spanish Government). We also thank Jean-Eric Pin and Jan Rutten for their helpful comments. Finally, we are indebted to the anonymous referees for their careful reading of the paper and for bringing to our attention some references we had missed. Their suggestions have helped us to improve the presentation of the paper.

Published

2014

5. A description based on languages of the final non-deterministic automaton

Author

Universitat Politècnica de València. Departamento de Matemática Aplicada - Departament de Matemàtica Aplicada, Ministerio de Ciencia e Innovación, National Natural Science Foundation of China, Ministerio de Educación, Ballester-Bolinches, A., Cosme-Llopez, E, Esteban Romero, Ramón, Universitat Politècnica de València. Departamento de Matemática Aplicada - Departament de Matemàtica Aplicada, Ministerio de Ciencia e Innovación, National Natural Science Foundation of China, Ministerio de Educación, Ballester-Bolinches, A., Cosme-Llopez, E, and Esteban Romero, Ramón

Abstract

The study of the behaviour of non-deterministic automata has traditionally focused on the languages which can be associated to the different states. Under this interpretation, the different branches that can be taken at every step are ignored. However, we can also take into account the different decisions which can be made at every state, that is, the branches that can be taken, and these decisions might change the possible future behaviour. In this case, the behaviour of the automata can be described with the help of the concept of bisimilarity. This is the kind of description that is usually obtained when the automata are regarded as labelled transition systems or coalgebras. Contrarily to what happens with deterministic automata, it is not possible to describe the behaviour up to bisimilarity of states of a non-deterministic automaton by considering just the languages associated to them. In this paper we present a description of a final object for the category of non-deterministic automata, regarded as labelled transition systems, with the help of some structures defined in terms of languages. As a consequence, we obtain a characterisation of bisimilarity of states of automata in terms of languages and a method to minimise non-deterministic automata with respect to bisimilarity of states. This confirms that languages can be considered as the natural objects to describe the behaviour of automata. (C) 2014 Elsevier B.V. All rights reserved.

Published

2014