关于VC维近似的复杂度

Proceedings 16th Annual IEEE Conference on Computational Complexity Pub Date : 2001-06-18 DOI:10.1109/CCC.2001.933889

Elchanan Mossel, C. Umans

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引用次数: 46

摘要

研究了当集合被一个小电路简洁地编码时，逼近集合集合VC维的复杂度。我们证明这个问题是:/spl Sigma//sub 3//sup p/-难以在因子2内近似-/spl epsiv/对于任何/spl epsiv/>0;在A/spl Mscr/中近似于因子2以内;和A/spl Mscr/-难以近似到因子N/sup /spl epsiv//对于某些常数/spl epsiv/>0。为了获得/spl Sigma// sub3 //sup 9/-硬度结果，我们使用列表可解码的二进制码解决了随机抽取问题;对于正结果，我们利用Sauer-Shelah(-Perles)引理。A/spl Mscr/-硬度结果中/spl epsiv/的确切值取决于明确分散剂结构所能达到的程度。

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On the complexity of approximating the VC dimension

We study the complexity of approximating the VC dimension of a collection of sets, when the sets are encoded succinctly by a small circuit. We show that this problem is: /spl Sigma//sub 3//sup p/-hard to approximate to within a factor 2-/spl epsiv/ for any /spl epsiv/>0; approximable in A/spl Mscr/ to within a factor 2; and A/spl Mscr/-hard to approximate to within a factor N/sup /spl epsiv// for some constant /spl epsiv/>0. To obtain the /spl Sigma//sub 3//sup 9/-hardness results we solve a randomness extraction problem using list-decodable binary codes; for the positive results we utilize the Sauer-Shelah(-Perles) Lemma. The exact value of /spl epsiv/ in the A/spl Mscr/-hardness result depends on the degree achievable by explicit disperser constructions.

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Proceedings 16th Annual IEEE Conference on Computational Complexity

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