Zhuojie Zhou scite author profile

Zhuojie Zhou

4Publications

22Citation Statements Received

86Citation Statements Given

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George Washington University

Publications

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Faster Random Walks by Rewiring Online Social Networks On-the-Fly

Zhou

Zhang

Gong

et al. 2016

ACM Trans. Database Syst.

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Abstract-Many online social networks feature restrictive web interfaces which only allow the query of a user's local neighborhood through the interface. To enable analytics over such an online social network through its restrictive web interface, many recent efforts reuse the existing Markov Chain Monte Carlo methods such as random walks to sample the social network and support analytics based on the samples. The problem with such an approach, however, is the large amount of queries often required (i.e., a long "mixing time") for a random walk to reach a desired (stationary) sampling distribution.In this paper, we consider a novel problem of enabling a faster random walk over online social networks by "rewiring" the social network on-the-fly. Specifically, we develop Modified TOpology (MTO)-Sampler which, by using only information exposed by the restrictive web interface, constructs a "virtual" overlay topology of the social network while performing a random walk, and ensures that the random walk follows the modified overlay topology rather than the original one. We show that MTOSampler not only provably enhances the efficiency of sampling, but also achieves significant savings on query cost over real-world online social networks such as Google Plus, Epinion etc.

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Leveraging History for Faster Sampling of Online Social Networks

Zhou

Zhang

Das

2015

Preprint

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Walk, Not Wait: Faster Sampling Over Online Social Networks

Nazi¹,

Zhou²,

Thirumuruganathan³

et al. 2014

Preprint

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In this paper, we introduce a novel, general purpose, technique for faster sampling of nodes over an online social network. Specifically, unlike traditional random walk which wait for the convergence of sampling distribution to a predetermined target distribution -a waiting process that incurs a high query cost -we develop WALK-ESTIMATE, which starts with a much shorter random walk, and then proactively estimate the sampling probability for the node taken before using acceptance-rejection sampling to adjust the sampling probability to the predetermined target distribution. We present a novel backward random walk technique which provides provably unbiased estimations for the sampling probability, and demonstrate the superiority of WALK-ESTIMATE over traditional random walks through theoretical analysis and extensive experiments over real world online social networks.

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Faster Random Walks By Rewiring Online Social Networks On-The-Fly

Zhou¹,

Zhang²,

Gong³

et al. 2012

Preprint

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Zhuojie Zhou

Faster Random Walks by Rewiring Online Social Networks On-the-Fly

Leveraging History for Faster Sampling of Online Social Networks

Walk, Not Wait: Faster Sampling Over Online Social Networks

Faster Random Walks By Rewiring Online Social Networks On-The-Fly

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