Search results for "Real number"

showing 10 items of 31 documents

Polynomial Identities of Algebras of Small Dimension

2009

It is well known that given an associative algebra or a Lie algebra A, its codimension sequence c n (A) is either polynomially bounded or grows at least as fast as 2 n . In [2] we proved that for a finite dimensional (in general nonassociative) algebra A, dim A = d, the sequence c n (A) is also polynomially bounded or c n (A) ≥ a n asymptotically, for some real number a > 1 which might be less than 2. Nevertheless, for d = 2, we may take a = 2. Here we prove that for d = 3 the same conclusion holds. We also construct a five-dimensional algebra A with c n (A) < 2 n .

CombinatoricsDiscrete mathematicsSequencePolynomialAlgebra and Number TheoryBounded functionAssociative algebraLie algebraAlgebra representationCodimensionpolynomial identity non associativeReal numberMathematicsCommunications in Algebra
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Variations on a Theorem of Fine &amp; Wilf

2001

In 1965, Fine & Wilf proved the following theorem: if (fn)n≥0 and (gn)n≥0 are periodic sequences of real numbers, of periods h and k respectively, and fn = gn for 0 ≤ n ≤ h+k-gcd(h, k), then fn = gn for all n ≥ 0. Furthermore, the constant h + k - gcd(h, k) is best possible. In this paper we consider some variations on this theorem. In particular, we study the case where fn ≤ gn instead of fn = gn. We also obtain a generalization to more than two periods.

CombinatoricsNumber theoryPeriodic sequenceArithmeticPeriod lengthMathematicsReal number
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Varieties with at most quadratic growth

2010

Let V be a variety of non necessarily associative algebras over a field of characteristic zero. The growth of V is determined by the asymptotic behavior of the sequence of codimensions cn(V); n = 1; 2, … and here we study varieties of polynomial growth. Recently, for any real number a, 3 &lt; a &lt; 4, a variety V was constructed satisfying C1n^a &lt; cn(V) &lt; C2n^a; for some constants C1;C2. Motivated by this result here we try to classify all possible growth of varieties V such that cn(V) &lt; Cn^a; with 0 &lt; a &lt; 2, for some constant C. We prove that if 0 &lt; a &lt; 1 then, for n large, cn(V) ≤ 1, whereas if V is a commutative variety and 1 &lt; a &lt; 2, then lim logn cn(V) = 1 o…

CombinatoricsQuadratic growthDiscrete mathematicsSettore MAT/02 - AlgebraVarieties codimension growthGeneral MathematicsZero (complex analysis)Field (mathematics)Variety (universal algebra)Algebra over a fieldMathematicsReal numberIsrael Journal of Mathematics
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Type and Cotype in Vector-Valued Nakano Sequence Spaces

2001

AbstractGiven a sequence of Banach spaces {Xn}n and a sequence of real numbers {pn}n in [1,∞), the vector-valued Nakano sequence spaces ℓ({pn},{Xn}) consist of elements {xn}n in ∏nXn for which there is a constant λ>0 such that ∑n(‖xn‖/λ)pn<∞. In this paper we find the conditions on the Banach spaces Xn and on the sequence {pn}n for the spaces ℓ({pn},{Xn}) to have cotype q or type p.

CombinatoricsSequenceApplied MathematicsMathematical analysiscotypeBanach spaceType (model theory)typeConstant (mathematics)Analysisnakano sequence spaceReal numberMathematicsJournal of Mathematical Analysis and Applications
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On Sturmian Graphs

2007

AbstractIn this paper we define Sturmian graphs and we prove that all of them have a certain “counting” property. We show deep connections between this counting property and two conjectures, by Moser and by Zaremba, on the continued fraction expansion of real numbers. These graphs turn out to be the underlying graphs of compact directed acyclic word graphs of central Sturmian words. In order to prove this result, we give a characterization of the maximal repeats of central Sturmian words. We show also that, in analogy with the case of Sturmian words, these graphs converge to infinite ones.

Discrete mathematicsApplied MathematicsCDAWGsContinued fractionsSturmian wordSturmian wordsCharacterization (mathematics)RepeatsDirected acyclic graphCombinatoricsIndifference graphSturmian words CDAWGs Continued fractions RepeatsChordal graphComputer Science::Discrete MathematicsDiscrete Mathematics and CombinatoricsContinued fractionWord (group theory)Computer Science::Formal Languages and Automata TheoryReal numberMathematics
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A bijection between words and multisets of necklaces

2012

Two of the present authors have given in 1993 a bijection Phi between words on a totally ordered alphabet and multisets of primitive necklaces. At the same time and independently, Burrows and Wheeler gave a data compression algorithm which turns out to be a particular case of the inverse of Phi. In the present article, we show that if one replaces in Phi the standard permutation of a word by the co-standard one (reading the word from right to left), then the inverse bijection is computed using the alternate lexicographic order (which is the order of real numbers given by continued fractions) on necklaces, instead of the lexicographic order as for Phi(-1). The image of the new bijection, ins…

Discrete mathematicsBurrows and Wheeler TransformMathematics::CombinatoricsSettore INF/01 - InformaticaFree Lie algebraLie superalgebrastandard permutationLexicographical orderTheoretical Computer ScienceImage (mathematics)CombinatoricsSet (abstract data type)PermutationComputational Theory and MathematicsBijectionDiscrete Mathematics and CombinatoricsGeometry and TopologyComputer Science::Formal Languages and Automata TheoryWord (group theory)MathematicsReal number
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On lazy representations and Sturmian graphs

2011

In this paper we establish a strong relationship between the set of lazy representations and the set of paths in a Sturmian graph associated with a real number α. We prove that for any non-negative integer i the unique path weighted i in the Sturmian graph associated with α represents the lazy representation of i in the Ostrowski numeration system associated with α. Moreover, we provide several properties of the representations of the natural integers in this numeration system.

Discrete mathematicsCombinatoricsOstrowski numerationIntegernumeration systems Sturmian graphs continued fractionsSettore INF/01 - InformaticaGraphMathematicsReal number
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Sturmian Graphs and a conjecture of Moser

2004

In this paper we define Sturmian graphs and we prove that all of them have a “counting” property. We show deep connections between this counting property and two conjectures, by Moser and by Zaremba, on the continued fraction expansion of real numbers. These graphs turn out to be the underlying graphs of CDAWGs of central Sturmian words. We show also that, analogously to the case of Sturmian words, these graphs converge to infinite ones.

Discrete mathematicsConjectureProperty (philosophy)Data structuresData structureCombinatoricsPhilosophy of languagecompressed suffixComputer Science::Discrete MathematicsContinued fractionComputer Science::Formal Languages and Automata TheoryAlgorithmsReal numberMathematics
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Sturmian graphs and integer representations over numeration systems

2012

AbstractIn this paper we consider a numeration system, originally due to Ostrowski, based on the continued fraction expansion of a real number α. We prove that this system has deep connections with the Sturmian graph associated with α. We provide several properties of the representations of the natural integers in this system. In particular, we prove that the set of lazy representations of the natural integers in this numeration system is regular if and only if the continued fraction expansion of α is eventually periodic. The main result of the paper is that for any number i the unique path weighted i in the Sturmian graph associated with α represents the lazy representation of i in the Ost…

Discrete mathematicsContinued fractionsApplied MathematicsNumeration systemsSturmian graphsGraphCombinatoricsOstrowski numerationIntegerIf and only ifnumeration systems Sturmian graphs continued fractions.Numeration systems; SUBWORD GRAPHS; WORDSDiscrete Mathematics and CombinatoricsSUBWORD GRAPHSContinued fractionWORDSMathematicsReal number
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Quantum, stochastic, and pseudo stochastic languages with few states

2014

Stochastic languages are the languages recognized by probabilistic finite automata (PFAs) with cutpoint over the field of real numbers. More general computational models over the same field such as generalized finite automata (GFAs) and quantum finite automata (QFAs) define the same class. In 1963, Rabin proved the set of stochastic languages to be uncountable presenting a single 2-state PFA over the binary alphabet recognizing uncountably many languages depending on the cutpoint. In this paper, we show the same result for unary stochastic languages. Namely, we exhibit a 2-state unary GFA, a 2-state unary QFA, and a family of 3-state unary PFAs recognizing uncountably many languages; all th…

FOS: Computer and information sciencesFINITE AUTOMATAClass (set theory)Unary operationFormal Languages and Automata Theory (cs.FL)QUANTUM FINITE AUTOMATACOMPUTATIONAL MODELBINARY ALPHABETSFOS: Physical sciencesComputer Science - Formal Languages and Automata TheoryComputer Science::Computational ComplexityPROBABILISTIC FINITE AUTOMATAREAL NUMBERUNARY LANGUAGESQuantum finite automataCUT-POINTMathematicsReal numberDiscrete mathematicsQuantum PhysicsFinite-state machineGENERALIZED FINITE AUTOMATAComputer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing)STOCHASTIC SYSTEMSAutomatonSTOCHASTIC LANGUAGESMathematics::LogicProbabilistic automatonComputer Science::Programming LanguagesQUANTUM THEORYUncountable setQuantum Physics (quant-ph)Computer Science::Formal Languages and Automata TheoryGENERALIZED FINITE AUTOMATON
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