The Lovász v function, SVMs and finding large dense subgraphs
Paper i proceeding, 2012

The Lovász v function of a graph, a fundamental tool in combinatorial optimization and approximation algorithms, is computed by solving a SDP. In this paper we establish that the Lovász v function is equivalent to a kernel learning problem related to one class SVM. This interesting connection opens up many opportunities bridging graph theoretic algorithms and machine learning. We show that there exist graphs, which we call SVM - v graphs, on which the Lovász v function can be approximated well by a one-class SVM. This leads to novel use of SVM techniques for solving algorithmic problems in large graphs e.g. identifying a planted clique of size Θ( √n) in a random graph G(n; 1/2 ). A classic approach for this problem involves computing the v function, however it is not scalable due to SDP computation. We show that the random graph with a -planted clique is an example of SVM - v graph. As a consequence a SVM based approach easily identifies the clique in large graphs and is competitive with the state-of-the-art. We introduce the notion of common orthogonal labelling and show that it can be computed by solving a Multiple Kernel learning problem. It is further shown that such a labelling is extremely useful in identifying a large common dense subgraph in multiple graphs, which is known to be a computationally difficult problem. The proposed algorithm achieves an order of magnitude scalability compared to state of the art methods.

Författare

Vinay Jethava

Chalmers, Data- och informationsteknik, Datavetenskap

Anders Martinsson

Chalmers, Matematiska vetenskaper, Matematisk statistik

Göteborgs universitet

C. Bhattacharyya

Indian Institute of Science

Devdatt Dubhashi

Chalmers, Data- och informationsteknik, Datavetenskap

Advances in Neural Information Processing Systems

10495258 (ISSN)

Vol. 2 1160-1168
978-16-27-48003-1 (ISBN)

Ämneskategorier

Data- och informationsvetenskap

ISBN

978-16-27-48003-1

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2024-01-03