The Big-O Problem

Log. Methods Comput. Sci. Pub Date : 2020-07-15 DOI:10.46298/lmcs-18(1:40)2022

D. Chistikov, S. Kiefer, A. Murawski, David Purser

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引用次数: 4

Abstract

Given two weighted automata, we consider the problem of whether one is big-O of the other, i.e., if the weight of every finite word in the first is not greater than some constant multiple of the weight in the second. We show that the problem is undecidable, even for the instantiation of weighted automata as labelled Markov chains. Moreover, even when it is known that one weighted automaton is big-O of another, the problem of finding or approximating the associated constant is also undecidable. Our positive results show that the big-O problem is polynomial-time solvable for unambiguous automata, coNP-complete for unlabelled weighted automata (i.e., when the alphabet is a single character) and decidable, subject to Schanuel's conjecture, when the language is bounded (i.e., a subset of $w_1^*\dots w_m^*$ for some finite words $w_1,\dots,w_m$) or when the automaton has finite ambiguity. On labelled Markov chains, the problem can be restated as a ratio total variation distance, which, instead of finding the maximum difference between the probabilities of any two events, finds the maximum ratio between the probabilities of any two events. The problem is related to $\varepsilon$-differential privacy, for which the optimal constant of the big-O notation is exactly $\exp(\varepsilon)$.

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大o问题

给定两个加权自动机，我们考虑一个是否大于另一个的问题，即，如果第一个中每个有限词的权值不大于第二个中权值的某个常数倍。我们证明了这个问题是不可确定的，即使对于加权自动机的实例化作为标记的马尔可夫链。此外，即使已知一个加权自动机是另一个的大0，寻找或近似相关常数的问题也是无法确定的。我们的积极结果表明，对于无二义自动机，大o问题是多项式时间可解的，对于未标记加权自动机(即，当字母表是单个字符时)，大o问题是conp完全的，并且当语言是有界的(即，的子集)，根据Schanuel猜想，大o问题是可决定的 $w_1^*\dots w_m^*$对于一些有限词 $w_1,\dots,w_m$)或当自动机具有有限的模糊性时。在标记的马尔可夫链上，这个问题可以被重新表述为一个比率总变异距离，它不是找到任意两个事件的概率之间的最大差，而是找到任意两个事件的概率之间的最大比。这个问题与……有关$\varepsilon$-差分隐私，其中大符号的最优常数为 $\exp(\varepsilon)$．

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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Log. Methods Comput. Sci.

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