Abstract
The Chow-Liu algorithm has been a mainstay for the learning of tree-structured graphical models from i.i.d. sampled data vectors. Its theoretical properties have been well-studied and are well-understood. In this paper, we focus on the class of trees that are arguably even more fundamental, namely homogeneous trees in which each pair of nodes that forms an edge has the same correlation ρ. We ask whether we are able to further reduce the error probability of learning the structure of the homogeneous tree model when active learning is allowed. Our figure of merit is the error exponent, which quantifies the exponential rate of decay of the error probability with an increasing number of data samples. We design and analyze an algorithm Active Learning Algorithm for Trees with Homogeneous Edges (ACTIVE-LATHE), which surprisingly boosts (increases) the error exponent. Our analysis hinges on judiciously exploiting the minute but detectable statistical variation of the samples to allocate more data to parts of the graph in which we are less confident of being correct.
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