On the reduction of a random basis

Akhavi, Ali; Marckert, Jean-François; Rouault, Alain

doi:10.1051/ps:2008012

Akhavi, Ali ; Marckert, Jean-François ; Rouault, Alain

ESAIM: Probability and Statistics, Tome 13 (2009), pp. 437-458.

Résumé

For $p \leq n$ , let $b_{1}^{(n)}, ..., b_{p}^{(n)}$ be independent random vectors in $ℝ^{n}$ with the same distribution invariant by rotation and without mass at the origin. Almost surely these vectors form a basis for the euclidean lattice they generate. The topic of this paper is the property of reduction of this random basis in the sense of Lenstra-Lenstra-Lovász (LLL). If ${\hat{b}}_{1}^{(n)}, ..., {\hat{b}}_{p}^{(n)}$ is the basis obtained from $b_{1}^{(n)}, ..., b_{p}^{(n)}$ by Gram-Schmidt orthogonalization, the quality of the reduction depends upon the sequence of ratios of squared lengths of consecutive vectors $r_{j}^{(n)} = ∥ {\hat{b}}_{n - j + 1}^{(n)} ∥^{2} / {∥ {\hat{b}}_{n - j}^{(n)} ∥}^{2}$ , $j = 1, ..., p - 1$ . We show that as $n \to \infty$ the process $(r_{j}^{(n)} - 1, j \geq 1)$ tends in distribution in some sense to an explicit process $(ℛ_{j} - 1, j \geq 1)$ ; some properties of the latter are provided. The probability that a random random basis is $s$ -LLL-reduced is then showed to converge for $p = n - g$ , and $g$ fixed, or $g = g (n) \to + \infty$ .

EuDML MR Zbl

DOI : 10.1051/ps:2008012

Classification : 15A52, 15A03, 60B12, 60F99, 06B99, 68W40
Mots clés : random matrices, random basis, orthogonality index, determinant, lattice reduction

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     title = {On the reduction of a random basis},
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     pages = {437--458},
     publisher = {EDP-Sciences},
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     zbl = {1185.15030},
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     url = {http://archive.numdam.org/articles/10.1051/ps:2008012/}
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Akhavi, Ali; Marckert, Jean-François; Rouault, Alain. On the reduction of a random basis. ESAIM: Probability and Statistics, Tome 13 (2009), pp. 437-458. doi : 10.1051/ps:2008012. http://archive.numdam.org/articles/10.1051/ps:2008012/

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