近似近邻的最优数据相关哈希

Alexandr Andoni, Ilya P. Razenshteyn
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引用次数: 263

摘要

我们给出了近似近邻问题的最优数据相关哈希方案。对于d维空间中的n点数据集,我们的数据结构实现了查询时间O(d·nρ+ O(1))和空间O(n1+ρ+ O(1) + d·n),其中ρ=1/(2c2-1)对于欧几里得空间和近似c>1。对于Hamming空间,我们得到ρ=1/(2c-1)的指数。我们的结果完成了(Andoni, Indyk, Nguyen, Razenshteyn 2014)中提出的方向,他们给出了一个概念证明,即数据依赖哈希可以优于经典的位置敏感哈希(LSH)。与(Andoni, Indyk, Nguyen, Razenshteyn 2014)相比,新边界不仅是最优的,而且实际上对所有近似因子c bbb10 1都优于最佳(最优)LSH数据结构(Indyk, Motwani 1998) (Andoni, Indyk 2006)。从技术角度来看,我们将任意数据集分解为几个子集,这些子集在某种意义上是伪随机的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimal Data-Dependent Hashing for Approximate Near Neighbors
We show an optimal data-dependent hashing scheme for the approximate near neighbor problem. For an n-point dataset in a d-dimensional space our data structure achieves query time O(d ⋅ nρ+o(1)) and space O(n1+ρ+o(1) + d ⋅ n), where ρ=1/(2c2-1) for the Euclidean space and approximation c>1. For the Hamming space, we obtain an exponent of ρ=1/(2c-1). Our result completes the direction set forth in (Andoni, Indyk, Nguyen, Razenshteyn 2014) who gave a proof-of-concept that data-dependent hashing can outperform classic Locality Sensitive Hashing (LSH). In contrast to (Andoni, Indyk, Nguyen, Razenshteyn 2014), the new bound is not only optimal, but in fact improves over the best (optimal) LSH data structures (Indyk, Motwani 1998) (Andoni, Indyk 2006) for all approximation factors c>1. From the technical perspective, we proceed by decomposing an arbitrary dataset into several subsets that are, in a certain sense, pseudo-random.
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