Search results for "Average case"

showing 5 items of 5 documents

ALGORITHMS FOR JUMBLED PATTERN MATCHING IN STRINGS

2011

The Parikh vector p(s) of a string s is defined as the vector of multiplicities of the characters. Parikh vector q occurs in s if s has a substring t with p(t)=q. We present two novel algorithms for searching for a query q in a text s. One solves the decision problem over a binary text in constant time, using a linear size index of the text. The second algorithm, for a general finite alphabet, finds all occurrences of a given Parikh vector q and has sub-linear expected time complexity; we present two variants, which both use a linear size index of the text.

FOS: Computer and information sciencesJ.3average case analysis.Binary numberaverage case analysispermuted stringpermuted stringsComputer Science - Data Structures and AlgorithmsComputer Science (miscellaneous)Parikh vectorData Structures and Algorithms (cs.DS)Pattern matchingTime complexityMathematicsString (computer science)Parikh vectorsstring algorithmDecision problemstring algorithmsSubstringParikh vectors; permuted strings; pattern matching; string algorithms; average case analysisF.2.2; J.3Index (publishing)pattern matchingF.2.2Constant (mathematics)AlgorithmComputer Science::Formal Languages and Automata Theory
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Searching for Jumbled Patterns in Strings

2009

Parikh vectors permuted strings pattern matching string algorithms average case analysisString algorithmsAverage case analysis; Parikh vectors; Pattern matching; Permuted strings; String algorithmsPermuted stringsParikh vectorsAverage case analysisPattern matching
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On Approximate Jumbled Pattern Matching in Strings

2011

Given a string s, the Parikh vector of s, denoted p(s), counts the multiplicity of each character in s. Searching for a match of a Parikh vector q in the text s requires finding a substring t of s with p(t) = q. This can be viewed as the task of finding a jumbled (permuted) version of a query pattern, hence the term Jumbled Pattern Matching. We present several algorithms for the approximate version of the problem: Given a string s and two Parikh vectors u, v (the query bounds), find all maximal occurrences in s of some Parikh vector q such that u <= q <= v. This definition encompasses several natural versions of approximate Parikh vector search. We present an algorithm solving this problem …

Parikh vectors: Average case analysiApproximate searchString algorithmsDiscrete mathematicsWeight functionanalysisSearch engine indexingParikh vectorsAverage case analysisApproximate string matchingSubstringString algorithmTheoretical Computer ScienceCombinatoricsComputational Theory and MathematicsString algorithms Pattern matching Parikh vectors Average case analysis Approximate search Permuted stringsPermuted stringsAverage caseTheory of computationWavelet TreePreprocessorPattern matchingPattern matchingMathematicsTheory of Computing Systems
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The Average State Complexity of the Star of a Finite Set of Words Is Linear

2008

We prove that, for the uniform distribution over all sets Xof m(that is a fixed integer) non-empty words whose sum of lengths is n, $\mathcal{D}_X$, one of the usual deterministic automata recognizing X*, has on average $\mathcal{O}(n)$ states and that the average state complexity of X*is i¾?(n). We also show that the average time complexity of the computation of the automaton $\mathcal{D}_X$ is $\mathcal{O}(n\log n)$, when the alphabet is of size at least three.

Uniform distribution (continuous)ComputationStar (game theory)0102 computer and information sciences02 engineering and technology[INFO.INFO-DM]Computer Science [cs]/Discrete Mathematics [cs.DM]01 natural sciencesCombinatoricsInteger0202 electrical engineering electronic engineering information engineeringTime complexityFinite setMathematicsstar operationDiscrete mathematicsaverage case analysistate complexity16. Peace & justiceBinary logarithm[INFO.INFO-DM] Computer Science [cs]/Discrete Mathematics [cs.DM]automatonState complexity010201 computation theory & mathematicsfinite language020201 artificial intelligence & image processingComputer Science::Formal Languages and Automata Theory
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The average state complexity of rational operations on finite languages is linear

2010

Considering the uniform distribution on sets of m non-empty words whose sum of lengths is n, we establish that the average state complexities of the rational operations are asymptotically linear.

finite languages regular operations automata state complexity average case analysisSettore INF/01 - Informatica
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