A Novel Regularized Principal Graph Learning Framework on Explicit Graph Representation

December 09, 2015 Β· Declared Dead Β· πŸ› arXiv.org

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Authors Qi Mao, Li Wang, Ivor W. Tsang, Yijun Sun arXiv ID 1512.02752 Category cs.AI: Artificial Intelligence Cross-listed cs.LG, stat.ML Citations 4 Venue arXiv.org Last Checked 4 months ago
Abstract
Many scientific datasets are of high dimension, and the analysis usually requires visual manipulation by retaining the most important structures of data. Principal curve is a widely used approach for this purpose. However, many existing methods work only for data with structures that are not self-intersected, which is quite restrictive for real applications. A few methods can overcome the above problem, but they either require complicated human-made rules for a specific task with lack of convergence guarantee and adaption flexibility to different tasks, or cannot obtain explicit structures of data. To address these issues, we develop a new regularized principal graph learning framework that captures the local information of the underlying graph structure based on reversed graph embedding. As showcases, models that can learn a spanning tree or a weighted undirected $\ell_1$ graph are proposed, and a new learning algorithm is developed that learns a set of principal points and a graph structure from data, simultaneously. The new algorithm is simple with guaranteed convergence. We then extend the proposed framework to deal with large-scale data. Experimental results on various synthetic and six real world datasets show that the proposed method compares favorably with baselines and can uncover the underlying structure correctly.
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