Support Size Estimation: The Power of Conditioning

International Symposium on Mathematical Foundations of Computer Science Pub Date : 2022-11-22 DOI:10.48550/arXiv.2211.11967

Diptarka Chakraborty, Gunjan Kumar, Kuldeep S. Meel

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引用次数: 2

Abstract

We consider the problem of estimating the support size of a distribution $D$. Our investigations are pursued through the lens of distribution testing and seek to understand the power of conditional sampling (denoted as COND), wherein one is allowed to query the given distribution conditioned on an arbitrary subset $S$. The primary contribution of this work is to introduce a new approach to lower bounds for the COND model that relies on using powerful tools from information theory and communication complexity. Our approach allows us to obtain surprisingly strong lower bounds for the COND model and its extensions. 1) We bridge the longstanding gap between the upper ($O(\log \log n + \frac{1}{\epsilon^2})$) and the lower bound $\Omega(\sqrt{\log \log n})$ for COND model by providing a nearly matching lower bound. Surprisingly, we show that even if we get to know the actual probabilities along with COND samples, still $\Omega(\log \log n + \frac{1}{\epsilon^2 \log (1/\epsilon)})$ queries are necessary. 2) We obtain the first non-trivial lower bound for COND equipped with an additional oracle that reveals the conditional probabilities of the samples (to the best of our knowledge, this subsumes all of the models previously studied): in particular, we demonstrate that $\Omega(\log \log \log n + \frac{1}{\epsilon^2 \log (1/\epsilon)})$ queries are necessary.

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支持大小估计:调节的力量

我们考虑估计分布的支持大小$D$的问题。我们的研究是通过分布测试的镜头进行的，并试图理解条件抽样(表示为COND)的力量，其中允许查询任意子集$S$上的给定分布。这项工作的主要贡献是引入了一种新的方法来求解COND模型的下界，该方法依赖于使用来自信息论和通信复杂性的强大工具。我们的方法使我们能够获得COND模型及其扩展的惊人的强下界。1)我们通过提供一个几乎匹配的下界，弥合了COND模型上界($O(\log \log n + \frac{1}{\epsilon^2})$)和下界$\Omega(\sqrt{\log \log n})$之间长期存在的差距。令人惊讶的是，我们表明，即使我们知道了COND样本的实际概率，仍然需要$\Omega(\log \log n + \frac{1}{\epsilon^2 \log (1/\epsilon)})$查询。2)我们获得了COND的第一个非平凡下界，该下界配备了一个额外的oracle，该oracle揭示了样本的条件概率(据我们所知，这包含了之前研究的所有模型):特别是，我们证明了$\Omega(\log \log \log n + \frac{1}{\epsilon^2 \log (1/\epsilon)})$查询是必要的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Symposium on Mathematical Foundations of Computer Science

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