Search results for "DFA minimization"

showing 10 items of 27 documents

Hamming, Permutations and Automata

2007

Quantum finite automata with mixed states are proved to be super-exponentially more concise rather than quantum finite automata with pure states. It was proved earlier by A.Ambainis and R.Freivalds that quantum finite automata with pure states can have exponentially smaller number of states than deterministic finite automata recognizing the same language. There was a never published "folk theorem" proving that quantum finite automata with mixed states are no more than superexponentially more concise than deterministic finite automata. It was not known whether the super-exponential advantage of quantum automata is really achievable. We prove that there is an infinite sequence of distinct int…

CombinatoricsDiscrete mathematicsDeterministic finite automatonNested wordDFA minimizationDeterministic automatonAutomata theoryQuantum finite automataNondeterministic finite automatonω-automatonComputer Science::Formal Languages and Automata TheoryMathematics
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Super-Exponential Size Advantage of Quantum Finite Automata with Mixed States

2008

Quantum finite automata with mixed states are proved to be super-exponentially more concise rather than quantum finite automata with pure states. It was proved earlier by A.Ambainis and R.Freivalds that quantum finite automata with pure states can have exponentially smaller number of states than deterministic finite automata recognizing the same language. There was a never published "folk theorem" proving that quantum finite automata with mixed states are no more than super-exponentially more concise than deterministic finite automata. It was not known whether the super-exponential advantage of quantum automata is really achievable. We use a novel proof technique based on Kolmogorov complex…

CombinatoricsDiscrete mathematicsDeterministic finite automatonNested wordDFA minimizationDeterministic automatonQuantum finite automataAutomata theoryNondeterministic finite automatonω-automatonNonlinear Sciences::Cellular Automata and Lattice GasesComputer Science::Formal Languages and Automata TheoryMathematics
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Epichristoffel Words and Minimization of Moore Automata

2014

This paper is focused on the connection between the combinatorics of words and minimization of automata. The three main ingredients are the epichristoffel words, Moore automata and a variant of Hopcroft's algorithm for their minimization. Epichristoffel words defined in [14] generalize some properties of circular sturmian words. Here we prove a factorization property and the existence of the reduction tree, that uniquely identifies the structure of the word. Furthermore, in the paper we investigate the problem of the minimization of Moore automata by defining a variant of Hopcroft's minimization algorithm. The use of this variant makes simpler the computation of the running time and consequ…

Discrete mathematicsAlgebra and Number TheoryReduction (recursion theory)Structure (category theory)Tree (graph theory)Theoretical Computer ScienceAutomatonCombinatoricsComputational Theory and MathematicsDFA minimizationFactorizationMinificationComputer Science::Formal Languages and Automata TheoryWord (computer architecture)Information SystemsMathematicsFundamenta Informaticae
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Transition Function Complexity of Finite Automata

2011

State complexity of finite automata in some cases gives the same complexity value for automata which intuitively seem to have completely different complexities. In this paper we consider a new measure of descriptional complexity of finite automata -- BC-complexity. Comparison of it with the state complexity is carried out here as well as some interesting minimization properties are discussed. It is shown that minimization of the number of states can lead to a superpolynomial increase of BC-complexity.

Discrete mathematicsAverage-case complexityTheoryofComputation_COMPUTATIONBYABSTRACTDEVICESFinite-state machineDFA minimizationContinuous spatial automatonAutomata theoryQuantum finite automataDescriptive complexity theoryω-automatonComputer Science::Formal Languages and Automata TheoryMathematics
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The Complexity of Probabilistic versus Quantum Finite Automata

2002

We present a language Ln which is recognizable by a probabilistic finite automaton (PFA) with probability 1 - ? for all ? > 0 with O(log2 n) states, with a deterministic finite automaton (DFA) with O(n) states, but a quantum finite automaton (QFA) needs at least 2?(n/log n) states.

Discrete mathematicsDeterministic finite automatonDFA minimizationDeterministic automatonProbabilistic automatonBüchi automatonQuantum finite automataTwo-way deterministic finite automatonNondeterministic finite automatonNonlinear Sciences::Cellular Automata and Lattice GasesComputer Science::Formal Languages and Automata TheoryMathematics
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Non-constructive Methods for Finite Probabilistic Automata

2007

Size (the number of states) of finite probabilistic automata with an isolated cut-point can be exponentially smaller than the size of any equivalent finite deterministic automaton. The result is presented in two versions. The first version depends on Artin's Conjecture (1927) in Number Theory. The second version does not depend on conjectures but the numerical estimates are worse. In both versions the method of the proof does not allow an explicit description of the languages used. Since our finite probabilistic automata are reversible, these results imply a similar result for quantum finite automata.

Discrete mathematicsDeterministic finite automatonNested wordDFA minimizationDeterministic automatonAutomata theoryQuantum finite automataNondeterministic finite automatonω-automatonNonlinear Sciences::Cellular Automata and Lattice GasesComputer Science::Formal Languages and Automata TheoryMathematics
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NON-CONSTRUCTIVE METHODS FOR FINITE PROBABILISTIC AUTOMATA

2008

Size (the number of states) of finite probabilistic automata with an isolated cut-point can be exponentially smaller than the size of any equivalent finite deterministic automaton. However, the proof is non-constructive. The result is presented in two versions. The first version depends on Artin's Conjecture (1927) in Number Theory. The second version does not depend on conjectures not proved but the numerical estimates are worse. In both versions the method of the proof does not allow an explicit description of the languages used. Since our finite probabilistic automata are reversible, these results imply a similar result for quantum finite automata.

Discrete mathematicsDeterministic finite automatonNested wordDFA minimizationDeterministic automatonComputer Science (miscellaneous)Automata theoryQuantum finite automataNondeterministic finite automatonω-automatonMathematicsInternational Journal of Foundations of Computer Science
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On extremal cases of Hopcroft’s algorithm

2010

AbstractIn this paper we consider the problem of minimization of deterministic finite automata (DFA) with reference to Hopcroft’s algorithm. Hopcroft’s algorithm has several degrees of freedom, so there can exist different executions that can lead to different sequences of refinements of the set of the states up to the final partition. We find an infinite family of binary automata for which such a process is unique, whatever strategy is chosen. Some recent papers (cf. Berstel and Carton (2004) [3], Castiglione et al. (2008) [6] and Berstel et al. (2009) [1]) have been devoted to find families of automata for which Hopcroft’s algorithm has its worst execution time. They are unary automata as…

Discrete mathematicsFinite-state machineGeneral Computer ScienceUnary operationWord treesStandard treesAutomatonTheoretical Computer ScienceCombinatoricsDeterministic finite automatonDFA minimizationDeterministic automatonHopcroft’s minimization algorithmTree automatonDeterministic finite state automataTime complexityAlgorithmComputer Science::Formal Languages and Automata TheoryMathematicsComputer Science(all)Theoretical Computer Science
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Artin’s Conjecture and Size of Finite Probabilistic Automata

2008

Size (the number of states) of finite probabilistic automata with an isolated cut-point can be exponentially smaller than the size of any equivalent finite deterministic automaton. The result is presented in two versions. The first version depends on Artin's Conjecture (1927) in Number Theory. The second version does not depend on conjectures but the numerical estimates are worse. In both versions the method of the proof does not allow an explicit description of the languages used. Since our finite probabilistic automata are reversible, these results imply a similar result for quantum finite automata.

Discrete mathematicsNested wordDeterministic finite automatonDFA minimizationDeterministic automatonAutomata theoryQuantum finite automataNondeterministic finite automatonω-automatonNonlinear Sciences::Cellular Automata and Lattice GasesComputer Science::Formal Languages and Automata TheoryMathematics
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The complexity of probabilistic versus deterministic finite automata

1996

We show that there exists probabilistic finite automata with an isolated cutpoint and n states such that the smallest equivalent deterministic finite automaton contains \(\Omega \left( {2^{n\tfrac{{\log \log n}}{{\log n}}} } \right)\) states.

Discrete mathematicsNested wordDeterministic finite automatonDFA minimizationDeterministic automatonQuantum finite automataTwo-way deterministic finite automatonNondeterministic finite automatonω-automatonNonlinear Sciences::Cellular Automata and Lattice GasesComputer Science::Formal Languages and Automata TheoryMathematics
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