Improved Learning from Kolmogorov Complexity

H. Goldberg, Valentine Kabanets
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引用次数: 2

Abstract

Carmosino, Impagliazzo, Kabanets, and Kolokolova (CCC, 2016) showed that the existence of natural properties in the sense of Razborov and Rudich (JCSS, 1997) implies PAC learning algorithms in the sense of Valiant (Comm. ACM, 1984), for boolean functions in P / poly , under the uniform distribution and with membership queries. It is still an open problem to get from natural properties learning algorithms that do not rely on membership queries but rather use randomly drawn labeled examples. Natural properties may be understood as an average-case version of MCSP, the problem of deciding the minimum size of a circuit computing a given truth-table. Problems related to MCSP include those concerning time-bounded Kolmogorov complexity. MKTP, for example, asks for the KT-complexity of a given string. KT-complexity is a relaxation of circuit size, as it does away with the requirement that a short description of a string be interpreted as a boolean circuit. In this work, under assumptions of MKTP and the related problem MK t P being easy on average, we get learning algorithms for boolean functions in P / poly that work over any distribution D samplable by a family of polynomial-size circuits (given explicitly in the case of MKTP ), only use randomly drawn labeled examples from D , and are agnostic (do not require the target function to belong to the hypothesis class). Our results build upon the recent work of Hirahara and Nanashima (FOCS, 2021) who showed similar learning consequences but under a stronger assumption that NP is easy on average.
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改进的Kolmogorov复杂度学习
Carmosino, Impagliazzo, Kabanets, and Kolokolova (CCC, 2016)表明,对于P / poly中的布尔函数,在均匀分布和成员查询下,Razborov和Rudich (JCSS, 1997)意义上的自然属性的存在意味着Valiant意义上的PAC学习算法。从自然属性中获得不依赖于隶属度查询而是使用随机抽取的标记示例的学习算法仍然是一个开放的问题。自然属性可以理解为MCSP的平均情况版本,MCSP是决定计算给定真值表的电路的最小尺寸的问题。与MCSP相关的问题包括有时Kolmogorov复杂度问题。例如,MKTP要求给定字符串的kt复杂度。kt复杂度是电路大小的放松,因为它不需要将字符串的简短描述解释为布尔电路。在这项工作中,在MKTP和相关问题MK t P平均容易的假设下,我们得到了P / poly中布尔函数的学习算法,该算法可以在任何分布D上工作,这些分布D可由多项式大小的电路族采样(在MKTP的情况下明确给出),仅使用从D中随机抽取的标记示例,并且是不可知的(不要求目标函数属于假设类)。我们的结果建立在Hirahara和Nanashima (FOCS, 2021)最近的工作基础上,他们显示了类似的学习结果,但在一个更强的假设下,即NP平均容易。
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