Predicting the nodes of a given graph is a fascinating theoretical problem with applications in several domains. Since graph sparsification via spanning trees retains enough information while making the task much easier, trees are an important special case of this problem. Although it is known how to predict the nodes of an unweighted tree in a nearly optimal way, in the weighted case a fully satisfactory algorithm is not available yet. We fill this hole and introduce an efficient node predictor, SHAZOO, which is nearly optimal on any weighted tree. Moreover, we show that SHAZOO can be viewed as a common nontrivial generalization of both previous approaches for unweighted trees and weighted lines. Experiments on real-world datasets confirm that SHAZOO performs well in that it fully exploits the structure of the input tree, and gets very close to (and sometimes better than) less scalable energy minimization methods.
See the tree through the lines : the Shazoo algorithm / F. Vitale, N. Cesa Bianchi, C. Gentile, G. Zappella (ADVANCES IN NEURAL INFORMATION PROCESSING SYSTEMS). - In: Advances in neural information processing systems 24 : 25. Annual conference on neural information processing systems 2011 : (NIPS 2011) : December 12-15, 2011, Granada, Spain. Volume 1 of 3 / [a cura di] J. Shawe-Taylor, R.S. Zemel, P.L. Bartlett, F. Pereira, K.Q. Weinberger. - Red Hook (NY) : Curran associates, 2011. - ISBN 9781618395993. - pp. 1584-1592 (( Intervento presentato al 25. convegno Annual conference on neural information processing systems (NIPS) tenutosi a Granada nel 2011.
See the tree through the lines : the Shazoo algorithm
F. Vitale;N. Cesa Bianchi;G. Zappella
2011
Abstract
Predicting the nodes of a given graph is a fascinating theoretical problem with applications in several domains. Since graph sparsification via spanning trees retains enough information while making the task much easier, trees are an important special case of this problem. Although it is known how to predict the nodes of an unweighted tree in a nearly optimal way, in the weighted case a fully satisfactory algorithm is not available yet. We fill this hole and introduce an efficient node predictor, SHAZOO, which is nearly optimal on any weighted tree. Moreover, we show that SHAZOO can be viewed as a common nontrivial generalization of both previous approaches for unweighted trees and weighted lines. Experiments on real-world datasets confirm that SHAZOO performs well in that it fully exploits the structure of the input tree, and gets very close to (and sometimes better than) less scalable energy minimization methods.
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