Optimal Lower Bounds for Universal Relation, and for Samplers and Finding Duplicates in Streams

2017 IEEE 58th Annual Symposium on Foundations of Computer Science (FOCS) Pub Date : 2017-04-03 DOI:10.1109/FOCS.2017.50
M. Kapralov, Jelani Nelson, J. Pachocki, Zhengyu Wang, David P. Woodruff, Mobin Yahyazadeh
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引用次数: 41

Abstract

In the communication problem UR (universal relation), Alice and Bob respectively receive x, y ∊{0,1\}^n with the promise that x≠ y. The last player to receive a message must output an index i such that x_i≠ y_i. We prove that the randomized one-way communication complexity of this problem in the public coin model is exactly \Theta(\min\{n,\log(1/δ)\log^2(\frac n{\log(1/δ)})\}) for failure probability δ. Our lower bound holds even if promised \mathop{support}(y)⊄ \mathop{support}(x). As a corollary, we obtain optimal lower bounds for ℓ_p-sampling in strict turnstile streams for 0\le p streams for 0 ≤ p
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通用关系的最优下界,以及采样器和查找流中的重复项
在通信问题UR (universal relation)中,Alice和Bob分别收到x, y ∊{0,1\}^n,并承诺x≠y.最后一个接收到消息的播放器必须输出索引i,这样x_i≠y_i。我们证明了该问题在公共币模型中的随机单向通信复杂度正好是\Theta(\min\{n,\log(1/δ)\log^2(\frac n{\log(1/δ)})\})对于失败概率δ。我们的下限保持不变,即使承诺\mathop{support}(y)⊄\ mathop{支持}(x)。作为一个结论,我们得到了严格旋转门流中_# x2113;_p采样的最优下界,为0\ p流为0 ≤p
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2017 IEEE 58th Annual Symposium on Foundations of Computer Science (FOCS)
2017 IEEE 58th Annual Symposium on Foundations of Computer Science (FOCS)
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