Spectral Partitioning of Random Graphs with Given Expected Degrees - Detailed Version
It is a well established fact, that – in the case of classical random graphs like variants of Gn,p or random regular graphs – spectral methods yield efficient algorithms for clustering (e. g. colouring or bisec- tion) problems. The theory of large networks emerging recently provides convincing evide...
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Format: | Others |
Language: | English |
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Universitätsbibliothek Chemnitz
2009
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Online Access: | http://nbn-resolving.de/urn:nbn:de:bsz:ch1-200900426 http://nbn-resolving.de/urn:nbn:de:bsz:ch1-200900426 http://www.qucosa.de/fileadmin/data/qucosa/documents/5764/data/IB-2009-01-komplett.pdf http://www.qucosa.de/fileadmin/data/qucosa/documents/5764/20090042.txt |
Summary: | It is a well established fact, that – in the case of classical random graphs like variants of Gn,p or random regular graphs – spectral methods yield efficient algorithms for clustering (e. g. colouring or bisec- tion) problems. The theory of large networks emerging recently provides convincing evidence that such networks, albeit looking random in some sense, cannot sensibly be described by classical random graphs. A vari- ety of new types of random graphs have been introduced. One of these types is characterized by the fact that we have a fixed expected degree sequence, that is for each vertex its expected degree is given. Recent theoretical work confirms that spectral methods can be success- fully applied to clustering problems for such random graphs, too – pro- vided that the expected degrees are not too small, in fact ≥ log<sup>6</sup> n. In this case however the degree of each vertex is concentrated about its expectation. We show how to remove this restriction and apply spectral methods when the expected degrees are bounded below just by a suitable constant. Our results rely on the observation that techniques developed for the classical sparse Gn,p random graph (that is p = c/n) can be transferred to the present situation, provided we consider a suitably normalized ad- jacency matrix: We divide each entry of the adjacency matrix by the product of the expected degrees of the incident vertices. Given the host of spectral techniques developed for Gn,p this observation should be of independent interest.
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