Uniform distribution modulo one and binary search trees

Dekking, Michel; Van der Wal, Peter

Dekking, Michel ; Van der Wal, Peter

Journal de théorie des nombres de Bordeaux, Tome 14 (2002) no. 2, pp. 415-424.

Résumé
Abstract

On peut construire à partir d’une suite $x = {(x_{k})}_{k = 1}^{\infty}$ de nombres distincts de l’intervalle [0,1] un arbre binaire en plaçant successivement ces nombres sur les noeuds selon un algorithme “gauche-droite” (cela revient à classer les nombres selon l’algorithme Quicksort). On note $H_{n} (x)$ la hauteur de l’arbre obtenu à partir des nombres $x_{1}, \dots, x_{n} .$ Il est évident que

\frac{log n}{log 2} - 1 \leq H_{n} (x) \leq n - 1 .

Si la suite

x

est obtenue comme valeurs de variables aléatoires indépendantes uniformes sur [0,1], alors on sait qu’il existe

c > 0

tel que

H_{n} (x) \sim c log n, (n \to \infty)

, presque-sûrement. Récemment, Devroye et Goudjil ont montré que si les

x

sont les suites de Weyl, i.e.,

x_{k} = {α k}, k = 1, 2, \dots,

où

α

est une variable aléatoire uniforme sur [0,1], alors

H_{n} (x) \sim (12 / π^{2}) log n log log n, n \to \infty,

en probabilité. Dans ce papier nous considérons la classe de toutes les suites

x

uniformément réparties pour lesquelles nous montrons que l’on a nécessairement

H_{n} (x) = o (n)

quand

n \to \infty

Any sequence $x = {(x_{k})}_{k = 1}^{\infty}$ of distinct numbers from [0,1] generates a binary tree by storing the numbers consecutively at the nodes according to a left-right algorithm (or equivalently by sorting the numbers according to the Quicksort algorithm). Let $H_{n} (x)$ be the height of the tree generated by $x_{1}, \dots, x_{n} .$ Obviously

\frac{log n}{log 2} - 1 \leq H_{n} (x) \leq n - 1 .

If the sequences

x

are generated by independent random variables having the uniform distribution on [0, 1], then it is well known that there exists

c > 0

such that

H_{n} (x) \sim c log n

n \to \infty

for almost all sequences

x

. Recently Devroye and Goudjil have shown that if the sequences

x

are Weyl sequences, i.e., defined by

x_{k} = {α k}, k = 1, 2, \dots,

and

α

is distributed uniformly at random on

[0, 1]

then

H_{n} (x) \sim (12 / π^{2}) log n log log n

n \to \infty

in probability. In this paper we consider the class of all uniformly distributed sequences

x

, and we show that the only behaviour that is excluded by the equidistribution of

x

is that of the worst case, i.e., for these

x

we necessarily have

H_{n} (x) = o (n)

n \to \infty

MR Zbl

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     author = {Dekking, Michel and Van der Wal, Peter},
     title = {Uniform distribution modulo one and binary search trees},
     journal = {Journal de th\'eorie des nombres de Bordeaux},
     pages = {415--424},
     publisher = {Universit\'e Bordeaux I},
     volume = {14},
     number = {2},
     year = {2002},
     mrnumber = {2040685},
     zbl = {1075.11054},
     language = {en},
     url = {http://www.numdam.org/item/JTNB_2002__14_2_415_0/}
}

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Dekking, Michel; Van der Wal, Peter. Uniform distribution modulo one and binary search trees. Journal de théorie des nombres de Bordeaux, Tome 14 (2002) no. 2, pp. 415-424. http://www.numdam.org/item/JTNB_2002__14_2_415_0/

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