nonparametric Latent Feature Models for Link Prediction

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Introduction

The goal of this paper <ref>Kurt T. Miller, Thomas L. Griffiths, and Michael I. Jordan. Nonparametric latent feature models for link prediction. NIPS, 2009</ref>is link prediction for a partially observed network, i.e. we observe the links (1 or 0) between some pairs of the nodes in a network and we try to predict the unobserved links. Basically, it builds the model by extracting the latent structure that representing the properties of individual entities. Unlike the latent space model <ref>Peter D. Hoff, Adrian E. Raftery, and Mark S. Handcock. Latent space approaches to social network analysis. JASA, 97(460):1090-1098.</ref>, which tries to find the location (arbitrary real valued features) of each node in a latent space, the "latent feature" here mainly refers to a class-based (binary features) representation. They assume a finite number of classes that entities can belong to and the interactions between classes determine the structure of the network. More specifically, the probability of forming a link depends only on the classes of the corresponding pair of nodes. The idea is fairly similar to the stochastic blockmodel <ref>Krzysztof Nowicki and Tom A. B. Snijders. Estimation and prediction for stochastic blockstructures. JASA, 96(455):1077-1087, 2001. </ref> <ref>Edoardo M. Airoldi, David M. Blei, Exic P. Xing, and Stephen E. Fienberg. Mixed membership stochastic block models. In Advances in Neural Information Processing Systems. 2009.</ref>. However, the blockmodels are mainly for community detection/network clustering, but not link prediction. This paper fills in the gap.

The nonparametric latent feature relational model

Inference

Simulations and real data results

Conclusion