Approximate Counting via the Poisson-Laplace-Mellin Method

Approximate Counting via the Poisson-Laplace-Mellin Method

Approximate counting is an algorithm that provides a count of a huge number of objects within an error tolerance. The first detailed analysis of this algorithm was given by Flajolet. In this paper, we propose a new analysis via the Poisson-Laplace-Mellin approach, a method devised for analyzing shap...

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Bibliographic Details
Main Authors: Michael Fuchs, Chung-Kuei Lee, Helmut Prodinger
Format: Article
Language:English
Published: Discrete Mathematics & Theoretical Computer Science 2012-01-01
Series:Discrete Mathematics & Theoretical Computer Science
Subjects:
approximate counting
digital search tree
js-admissibility
laplace transform
mellin transform
[info.info-ds] computer science [cs]/data structures and algorithms [cs.ds]
[info.info-dm] computer science [cs]/discrete mathematics [cs.dm]
[math.math-co] mathematics [math]/combinatorics [math.co]
[info.info-cg] computer science [cs]/computational geometry [cs.cg]
Online Access:https://dmtcs.episciences.org/2980/pdf
Description
Summary:Approximate counting is an algorithm that provides a count of a huge number of objects within an error tolerance. The first detailed analysis of this algorithm was given by Flajolet. In this paper, we propose a new analysis via the Poisson-Laplace-Mellin approach, a method devised for analyzing shape parameters of digital search trees in a recent paper of Hwang et al. Our approach yields a different and more compact expression for the periodic function from the asymptotic expansion of the variance. We show directly that our expression coincides with the one obtained by Flajolet. Moreover, we apply our method to variations of approximate counting, too.
ISSN:1365-8050

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