Search results for " Automata"

showing 10 items of 436 documents

A formal proof of the ε-optimality of absorbing continuous pursuit algorithms using the theory of regular functions

2014

Published version of an article from the journal: Applied Intelligence. Also available on Springerlink: http://dx.doi.org/10.1007/s10489-014-0541-1 The most difficult part in the design and analysis of Learning Automata (LA) consists of the formal proofs of their convergence accuracies. The mathematical techniques used for the different families (Fixed Structure, Variable Structure, Discretized etc.) are quite distinct. Among the families of LA, Estimator Algorithms (EAs) are certainly the fastest, and within this family, the set of Pursuit algorithms have been considered to be the pioneering schemes. Informally, if the environment is stationary, their ε-optimality is defined as their abili…

Discrete mathematicsDiscretizationLearning automataAbsorbing CPAComputer scienceEstimatorMonotonic functionVDP::Technology: 500::Information and communication technology: 550Mathematical proofFormal proofCPAArbitrarily largeArtificial Intelligenceε-optimalityMartingale (probability theory)Pursuit algorithmsAlgorithm
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Universal Lyndon Words

2014

A word w over an alphabet Σ is a Lyndon word if there exists an order defined on Σ for which w is lexicographically smaller than all of its conjugates (other than itself). We introduce and study universal Lyndon words, which are words over an n-letter alphabet that have length n! and such that all the conjugates are Lyndon words. We show that universal Lyndon words exist for every n and exhibit combinatorial and structural properties of these words. We then define particular prefix codes, which we call Hamiltonian lex-codes, and show that every Hamiltonian lex-code is in bijection with the set of the shortest unrepeated prefixes of the conjugates of a universal Lyndon word. This allows us t…

Discrete mathematicsExistential quantificationLyndon word Universal cycle Universal Lyndon wordComputer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing)Lyndon word Universal cycle Universal Lyndon word Lex-codeLexicographical orderLyndon wordUniversal Lyndon wordLyndon wordsPrefixCombinatoricsMathematics::Group TheoryCombinatorics on wordsComputer Science::Discrete MathematicsUniversal cycleBijectionAlphabetMathematics::Representation TheoryComputer Science::Formal Languages and Automata TheoryMathematics
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On the computational power of affine automata

2017

We investigate the computational power of affine automata (AfAs) introduced in [4]. In particular, we present a simpler proof for how to change the cutpoint for any affine language and a method how to reduce error in bounded error case. Moreover, we address to the question of [4] by showing that any affine language can be recognized by an AfA with certain limitation on the entries of affine states and transition matrices. Lastly, we present the first languages shown to be not recognized by AfAs with bounded-error.

Discrete mathematicsFOS: Computer and information sciencesComputer scienceFormal Languages and Automata Theory (cs.FL)Computer Science - Formal Languages and Automata Theory0102 computer and information sciences02 engineering and technologyerror reduction[INFO.INFO-DM]Computer Science [cs]/Discrete Mathematics [cs.DM]01 natural sciencesBounded errorPower (physics)Automatonaffine automata[INFO.INFO-FL]Computer Science [cs]/Formal Languages and Automata Theory [cs.FL]010201 computation theory & mathematics0202 electrical engineering electronic engineering information engineeringnon-classical models of automatacutpoint languages020201 artificial intelligence & image processingTransition matricesAffine transformationcompact setsbounded error
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Minimal forbidden words and symbolic dynamics

1996

We introduce a new complexity measure of a factorial formal language L: the growth rate of the set of minimal forbidden words. We prove some combinatorial properties of minimal forbidden words. As main result we prove that the growth rate of the set of minimal forbidden words for L is a topological invariant of the dynamical system defined by L.

Discrete mathematicsFactorial010102 general mathematics[INFO.INFO-DS]Computer Science [cs]/Data Structures and Algorithms [cs.DS]Symbolic dynamicsComputer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing)[INFO.INFO-DS] Computer Science [cs]/Data Structures and Algorithms [cs.DS]0102 computer and information sciencesInvariant (physics)16. Peace & justice01 natural sciencesCombinatorics010201 computation theory & mathematicsTheoryofComputation_LOGICSANDMEANINGSOFPROGRAMSInformation complexityFormal language0101 mathematicsComputer Science::Formal Languages and Automata TheoryComputingMilieux_MISCELLANEOUSMathematicsofComputing_DISCRETEMATHEMATICSMathematics
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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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Counting with Probabilistic and Ultrametric Finite Automata

2014

We investigate the state complexity of probabilistic and ultrametric finite automata for the problem of counting, i.e. recognizing the one-word unary language \(C_n=\left\{ 1^n \right\} \). We also review the known results for other types of automata.

Discrete mathematicsFinite-state machineState complexityUnary languageProbabilistic logicQuantum finite automataNonlinear Sciences::Cellular Automata and Lattice GasesUltrametric spaceComputer Science::Formal Languages and Automata TheoryMathematicsAutomaton
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Superiority Of One-Way And Realtime Quantum Machines

2012

In automata theory, quantum computation has been widely examined for finite state machines, known as quantum finite automata (QFAs), and less attention has been given to QFAs augmented with counters or stacks. In this paper, we focus on such generalizations of QFAs where the input head operates in one-way or realtime mode, and present some new results regarding their superiority over their classical counterparts. Our first result is about the nondeterministic acceptance mode: Each quantum model architecturally intermediate between realtime finite state automaton and one-way pushdown automaton (one-way finite automaton, realtime and one-way finite automata with one-counter, and realtime push…

Discrete mathematicsFinite-state machineTheoryofComputation_COMPUTATIONBYABSTRACTDEVICESGeneral MathematicsPushdown automaton0102 computer and information sciences02 engineering and technologyω-automaton01 natural sciencesComputer Science ApplicationsNondeterministic algorithmTheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES010201 computation theory & mathematics0202 electrical engineering electronic engineering information engineeringQuantum finite automataAutomata theory020201 artificial intelligence & image processingAlgorithmSoftwareComputer Science::Formal Languages and Automata TheoryQuantum cellular automatonMathematicsQuantum computer
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On block pumpable languages

2016

Ehrenfeucht, Parikh and Rozenberg gave an interesting characterisation of the regular languages called the block pumping property. When requiring this property only with respect to members of the language but not with respect to nonmembers, one gets the notion of block pumpable languages. It is shown that these block pumpable are a more general concept than regular languages and that they are an interesting notion of their own: they are closed under intersection, union and homomorphism by transducers; they admit multiple pumping; they have either polynomial or exponential growth.

Discrete mathematicsGeneral Computer ScienceAbstract family of languagesComputer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing)0102 computer and information sciences02 engineering and technology01 natural sciencesCone (formal languages)Pumping lemma for regular languagesTheoretical Computer ScienceCombinatoricsRegular languageIntersection010201 computation theory & mathematicsBlock (programming)0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingHomomorphismPumping lemma for context-free languagesComputer Science::Formal Languages and Automata TheoryMathematicsTheoretical Computer Science
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Balancing and clustering of words in the Burrows–Wheeler transform

2011

AbstractCompression algorithms based on Burrows–Wheeler transform (BWT) take advantage of the fact that the word output of BWT shows a local similarity and then turns out to be highly compressible. The aim of the present paper is to study such “clustering effect” by using notions and methods from Combinatorics on Words.The notion of balance of a word plays a central role in our investigation. Empirical observations suggest that balance is actually the combinatorial property of input word that ensure optimal BWT compression. Moreover, it is reasonable to assume that the more balanced the input word is, the more local similarity we have after BWT (and therefore the better the compression is).…

Discrete mathematicsGeneral Computer ScienceBurrows–Wheeler transformCombinatorics on wordsPalindromeComputer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing)Binary alphabetTheoretical Computer ScienceCombinatorics on wordsData compressionEntropy (information theory)Combinatorics on words; Burrows–Wheeler transform; Data compressionArithmeticCluster analysisEmpirical evidenceBurrows–Wheeler transformComputer Science::Formal Languages and Automata TheoryMathematicsData compressionComputer Science(all)
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Varieties and Covarieties of Languages (Extended Abstract)

2013

AbstractBecause of the isomorphism (X×A)→X≅X→(A→X), the transition structure of a deterministic automaton with state set X and with inputs from an alphabet A can be viewed both as an algebra and as a coalgebra. This algebra-coalgebra duality goes back to Arbib and Manes, who formulated it as a duality between reachability and observability, and is ultimately based on Kalmanʼs duality in systems theory between controllability and observability. Recently, it was used to give a new proof of Brzozowskiʼs minimization algorithm for deterministic automata. Here we will use the algebra-coalgebra duality of automata as a common perspective for the study of both varieties and covarieties, which are …

Discrete mathematicsGeneral Computer ScienceCoalgebraData ScienceStructure (category theory)Duality (optimization)equationalgebraAutomataTheoretical Computer ScienceAlgebravarietyReachabilityDeterministic automatonComputingMethodologies_DOCUMENTANDTEXTPROCESSINGcoequationObservabilityIsomorphismcovarietyVariety (universal algebra)coalgebraComputer Science::Formal Languages and Automata TheoryComputer Science(all)MathematicsElectronic Notes in Theoretical Computer Science
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