An Upper Bound on Checking Test Complexity for Almost All Cographs

O. V. Zubkov, D. Chistikov, A. A. Voronenko
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引用次数: 1

Abstract

The concept of a checking test is of prime interest to the study of a variant of exact identification problem, in which the learner is given a hint about the unknown object. A graph F is said to be a checking test for a co graph G iff for any other co graph H there exists an edge in F distinguishing G and H, that is, contained in exactly one of the graphs G and H. It is known that for any co graph G there exists a unique irredundant checking test, the number of edges in which is called the checking test complexity of G. We show that almost all co graphs on n vertices have relatively small checking test complexity of O(n log n). Using this result, we obtain an upper bound on the checking test complexity of almost all read-once Boolean functions over the basis of disjunction and parity functions.
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几乎所有图检验测试复杂度的上界
检查测试的概念对研究一种精确识别问题的变体具有重要意义,在这种问题中,学习者被给予关于未知物体的提示。图F是一个检查测试有限公司图G敌我识别其他公司图H存在F区分G和H的边缘,也就是说,包含在一个图G和H .众所周知,对于任何公司图G存在一个唯一irredundant检查测试,边的数量,被称为G .检查测试的复杂性,我们表明,几乎所有对n公司图顶点相对较小的检查测试的复杂性O (n log n)。使用这个结果,在析取函数和奇偶函数的基础上,我们得到了几乎所有读一次布尔函数的检验复杂度的上界。
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