Near Linear Lower Bound for Dimension Reduction in L1

Alexandr Andoni, M. Charikar, Ofer Neiman, Huy L. Nguyen
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引用次数: 35

Abstract

Given a set of $n$ points in $\ell_{1}$, how many dimensions are needed to represent all pair wise distances within a specific distortion? This dimension-distortion tradeoff question is well understood for the $\ell_{2}$ norm, where $O((\log n)/\epsilon^{2})$ dimensions suffice to achieve $1+\epsilon$ distortion. In sharp contrast, there is a significant gap between upper and lower bounds for dimension reduction in $\ell_{1}$. A recent result shows that distortion $1+\epsilon$ can be achieved with $n/\epsilon^{2}$ dimensions. On the other hand, the only lower bounds known are that distortion $\delta$ requires $n^{\Omega(1/\delta^2)}$ dimensions and that distortion $1+\epsilon$ requires $n^{1/2-O(\epsilon \log(1/\epsilon))}$ dimensions. In this work, we show the first near linear lower bounds for dimension reduction in $\ell_{1}$. In particular, we show that $1+\epsilon$ distortion requires at least $n^{1-O(1/\log(1/\epsilon))}$ dimensions. Our proofs are combinatorial, but inspired by linear programming. In fact, our techniques lead to a simple combinatorial argument that is equivalent to the LP based proof of Brinkman-Charikar for lower bounds on dimension reduction in $\ell_{1}$.
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L1中降维的近线性下界
给定$\ell_{1}$中的一组$n$点,需要多少个维度来表示特定畸变内的所有成对距离?对于$\ell_{2}$规范,可以很好地理解这个维度-扭曲权衡问题,其中$O((\log n)/\epsilon^{2})$维度足以实现$1+\epsilon$扭曲。与此形成鲜明对比的是,$\ell_{1}$中降维的上界和下界之间存在明显的差距。最近的一个结果表明,扭曲$1+\epsilon$可以实现$n/\epsilon^{2}$维度。另一方面,已知的唯一下界是扭曲$\delta$需要$n^{\Omega(1/\delta^2)}$维度,扭曲$1+\epsilon$需要$n^{1/2-O(\epsilon \log(1/\epsilon))}$维度。在这项工作中,我们在$\ell_{1}$中展示了第一个近线性降维下界。特别是,我们表明$1+\epsilon$失真至少需要$n^{1-O(1/\log(1/\epsilon))}$个维度。我们的证明是组合的,但受到线性规划的启发。事实上,我们的技术导致了一个简单的组合论证,它相当于基于LP的Brinkman-Charikar对$\ell_{1}$中降维下界的证明。
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