JabRef References output

Author	Title	Year	Journal/Proceedings	Reftype	DOI/URL
Thomas, J., Moallemy-Oureh, A., Beddar-Wiesing, S. & Holzhüter, C.	Graph Neural Networks Designed for Different Graph Types: A Survey [Abstract] [BibTeX]	2023	Transactions on Machine Learning Research	article	URL
Abstract: Graphs are ubiquitous in nature and can therefore serve as models for many practical but also eoretical problems. For this purpose, they can be defined as many different types which itably reflect the individual contexts of the represented problem. To address cutting-edge oblems based on graph data, the research field of Graph Neural Networks (GNNs) has erged. Despite the field’s youth and the speed at which new models are developed, many cent surveys have been published to keep track of them. Nevertheless, it has not yet en gathered which GNN can process what kind of graph types. In this survey, we give a tailed overview of already existing GNNs and, unlike previous surveys, categorize them cording to their ability to handle different graph types and properties. We consider GNNs erating on static and dynamic graphs of different structural constitutions, with or without de or edge attributes. Moreover, we distinguish between GNN models for discrete-time or ntinuous-time dynamic graphs and group the models according to their architecture. We nd that there are still graph types that are not or only rarely covered by existing GNN dels. We point out where models are missing and give potential reasons for their absence.
BibTeX: @article{thomas2023graph, author = {Thomas, Josephine and Moallemy-Oureh, Alice and Beddar-Wiesing, Silvia and Holzhüter, Clara}, title = {Graph Neural Networks Designed for Different Graph Types: A Survey}, journal = {Transactions on Machine Learning Research}, year = {2023}, url = {https://openreview.net/pdf?id=h4BYtZ79uy} }
Krompass, D., Nickel, M. & Tresp, V.	Large-scale factorization of type-constrained multi-relational data [BibTeX]	2014	International Conference on Data Science and Advanced Analytics, DSAA 2014, Shanghai, China, October 30 - November 1, 2014, pp. 18-24	inproceedings	DOI URL
BibTeX: @inproceedings{DBLP:conf/dsaa/KrompassNT14, author = {Krompass, Denis and Nickel, Maximilian and Tresp, Volker}, title = {Large-scale factorization of type-constrained multi-relational data}, booktitle = {International Conference on Data Science and Advanced Analytics, DSAA 2014, Shanghai, China, October 30 - November 1, 2014}, publisher = {IEEE}, year = {2014}, pages = {18--24}, url = {http://dx.doi.org/10.1109/DSAA.2014.7058046}, doi = {http://dx.doi.org/10.1109/DSAA.2014.7058046} }
Doerfel, S. & Jäschke, R.	An analysis of tag-recommender evaluation procedures [Abstract] [BibTeX]	2013	Proceedings of the 7th ACM conference on Recommender systems, pp. 343-346	inproceedings	DOI URL
Abstract: Since the rise of collaborative tagging systems on the web, the tag recommendation task -- suggesting suitable tags to users of such systems while they add resources to their collection -- has been tackled. However, the (offline) evaluation of tag recommendation algorithms usually suffers from difficulties like the sparseness of the data or the cold start problem for new resources or users. Previous studies therefore often used so-called post-cores (specific subsets of the original datasets) for their experiments. In this paper, we conduct a large-scale experiment in which we analyze different tag recommendation algorithms on different cores of three real-world datasets. We show, that a recommender's performance depends on the particular core and explore correlations between performances on different cores.
BibTeX: @inproceedings{doerfel2013analysis, author = {Doerfel, Stephan and Jäschke, Robert}, title = {An analysis of tag-recommender evaluation procedures}, booktitle = {Proceedings of the 7th ACM conference on Recommender systems}, publisher = {ACM}, year = {2013}, pages = {343--346}, url = {https://www.kde.cs.uni-kassel.de/pub/pdf/doerfel2013analysis.pdf}, doi = {http://dx.doi.org/10.1145/2507157.2507222} }
Heidtmann, K.	Internet-Graphen [Abstract] [BibTeX]	2013	Informatik-Spektrum Vol. 36(5), pp. 440-448	article	DOI URL
Abstract: Bildeten die Keimzellen des Internet noch kleine und einfach strukturierte Netze, so vergrößerten sich sowohl seine physikalischen als auch seine logischen Topologien später rasant. Wuchs einerseits das Netz aus Rechnern als Knoten und Verbindungsleitungen als Kanten immer weiter, so bedienten sich andererseits gleichzeitig immer mehr Anwendungen dieser Infrastruktur, um darüber ihrerseits immer größere und komplexere virtuelle Netze zu weben, z. B. das WWW oder soziale Online-Netze. Auf jeder Ebene dieser Hierarchie lassen sich die jeweiligen Netztopologien mithilfe von Graphen beschreiben und so mathematisch untersuchen. So ergeben sich interessante Einblicke in die Struktureigenschaften unterschiedlicher Graphentypen, die großen Einfluss auf die Leistungsfähigkeit des Internet haben. Hierzu werden charakteristische Eigenschaften und entsprechende Kenngrößen verschiedener Graphentypen betrachtet wie der Knotengrad, die Durchschnittsdistanz, die Variation der Kantendichte in unterschiedlichen Netzteilen und die topologische Robustheit als Widerstandsfähigkeit gegenüber Ausfällen und Angriffen. Es wird dabei Bezug genommen auf analytische, simulative und zahlreiche empirische Untersuchungen des Internets und hingewiesen auf Simulationsprogramme sowie Abbildungen von Internetgraphen im Internet.
BibTeX: @article{noKey, author = {Heidtmann, Klaus}, title = {Internet-Graphen}, journal = {Informatik-Spektrum}, publisher = {Springer Berlin Heidelberg}, year = {2013}, volume = {36}, number = {5}, pages = {440-448}, url = {http://dx.doi.org/10.1007/s00287-012-0654-z}, doi = {http://dx.doi.org/10.1007/s00287-012-0654-z} }
Landia, N., Doerfel, S., Jäschke, R., Anand, S.S., Hotho, A. & Griffiths, N.	Deeper Into the Folksonomy Graph: FolkRank Adaptations and Extensions for Improved Tag Recommendations [Abstract] [BibTeX]	2013	cs.IR Vol. 1310.1498	article	URL
Abstract: The information contained in social tagging systems is often modelled as a graph of connections between users, items and tags. Recommendation algorithms such as FolkRank, have the potential to leverage complex relationships in the data, corresponding to multiple hops in the graph. We present an in-depth analysis and evaluation of graph models for social tagging data and propose novel adaptations and extensions of FolkRank to improve tag recommendations. We highlight implicit assumptions made by the widely used folksonomy model, and propose an alternative and more accurate graph-representation of the data. Our extensions of FolkRank address the new item problem by incorporating content data into the algorithm, and significantly improve prediction results on unpruned datasets. Our adaptations address issues in the iterative weight spreading calculation that potentially hinder FolkRank's ability to leverage the deep graph as an information source. Moreover, we evaluate the benefit of considering each deeper level of the graph, and present important insights regarding the characteristics of social tagging data in general. Our results suggest that the base assumption made by conventional weight propagation methods, that closeness in the graph always implies a positive relationship, does not hold for the social tagging domain.
BibTeX: @article{landia2013deeper, author = {Landia, Nikolas and Doerfel, Stephan and Jäschke, Robert and Anand, Sarabjot Singh and Hotho, Andreas and Griffiths, Nathan}, title = {Deeper Into the Folksonomy Graph: FolkRank Adaptations and Extensions for Improved Tag Recommendations}, journal = {cs.IR}, year = {2013}, volume = {1310.1498}, url = {http://arxiv.org/abs/1310.1498} }
Landia, N., Doerfel, S., Jäschke, R., Anand, S.S., Hotho, A. & Griffiths, N.	Deeper Into the Folksonomy Graph: FolkRank Adaptations and Extensions for Improved Tag Recommendations [Abstract] [BibTeX]	2013	cs.IR Vol. 1310.1498	article	URL
Abstract: The information contained in social tagging systems is often modelled as a graph of connections between users, items and tags. Recommendation algorithms such as FolkRank, have the potential to leverage complex relationships in the data, corresponding to multiple hops in the graph. We present an in-depth analysis and evaluation of graph models for social tagging data and propose novel adaptations and extensions of FolkRank to improve tag recommendations. We highlight implicit assumptions made by the widely used folksonomy model, and propose an alternative and more accurate graph-representation of the data. Our extensions of FolkRank address the new item problem by incorporating content data into the algorithm, and significantly improve prediction results on unpruned datasets. Our adaptations address issues in the iterative weight spreading calculation that potentially hinder FolkRank's ability to leverage the deep graph as an information source. Moreover, we evaluate the benefit of considering each deeper level of the graph, and present important insights regarding the characteristics of social tagging data in general. Our results suggest that the base assumption made by conventional weight propagation methods, that closeness in the graph always implies a positive relationship, does not hold for the social tagging domain.
BibTeX: @article{landia2013deeper, author = {Landia, Nikolas and Doerfel, Stephan and Jäschke, Robert and Anand, Sarabjot Singh and Hotho, Andreas and Griffiths, Nathan}, title = {Deeper Into the Folksonomy Graph: FolkRank Adaptations and Extensions for Improved Tag Recommendations}, journal = {cs.IR}, year = {2013}, volume = {1310.1498}, url = {http://arxiv.org/abs/1310.1498} }
Landia, N., Doerfel, S., Jäschke, R., Anand, S.S., Hotho, A. & Griffiths, N.	Deeper Into the Folksonomy Graph: FolkRank Adaptations and Extensions for Improved Tag Recommendations [Abstract] [BibTeX]	2013	cs.IR Vol. 1310.1498	article	URL
Abstract: The information contained in social tagging systems is often modelled as a graph of connections between users, items and tags. Recommendation algorithms such as FolkRank, have the potential to leverage complex relationships in the data, corresponding to multiple hops in the graph. We present an in-depth analysis and evaluation of graph models for social tagging data and propose novel adaptations and extensions of FolkRank to improve tag recommendations. We highlight implicit assumptions made by the widely used folksonomy model, and propose an alternative and more accurate graph-representation of the data. Our extensions of FolkRank address the new item problem by incorporating content data into the algorithm, and significantly improve prediction results on unpruned datasets. Our adaptations address issues in the iterative weight spreading calculation that potentially hinder FolkRank's ability to leverage the deep graph as an information source. Moreover, we evaluate the benefit of considering each deeper level of the graph, and present important insights regarding the characteristics of social tagging data in general. Our results suggest that the base assumption made by conventional weight propagation methods, that closeness in the graph always implies a positive relationship, does not hold for the social tagging domain.
BibTeX: @article{landia2013deeper, author = {Landia, Nikolas and Doerfel, Stephan and Jäschke, Robert and Anand, Sarabjot Singh and Hotho, Andreas and Griffiths, Nathan}, title = {Deeper Into the Folksonomy Graph: FolkRank Adaptations and Extensions for Improved Tag Recommendations}, journal = {cs.IR}, year = {2013}, volume = {1310.1498}, url = {http://arxiv.org/abs/1310.1498} }
Liu, X., Zhang, J. & Guo, C.	Full-Text Citation Analysis: A New Method to Enhance Scholarly Network [BibTeX]	2012	Journal of the American Society for Information Science and Technology	article	URL
BibTeX: @article{liu2012fulltext, author = {Liu, Xiaozhong and Zhang, Jinsong and Guo, Chun}, title = {Full-Text Citation Analysis: A New Method to Enhance Scholarly Network}, journal = {Journal of the American Society for Information Science and Technology}, year = {2012}, url = {http://discern.uits.iu.edu:8790/publication/Full%20text%20citation.pdf} }
Liu, X., Zhang, J. & Guo, C.	Full-Text Citation Analysis: A New Method to Enhance Scholarly Network [BibTeX]	2012	Journal of the American Society for Information Science and Technology	article	URL
BibTeX: @article{liu2012fulltext, author = {Liu, Xiaozhong and Zhang, Jinsong and Guo, Chun}, title = {Full-Text Citation Analysis: A New Method to Enhance Scholarly Network}, journal = {Journal of the American Society for Information Science and Technology}, year = {2012}, url = {http://discern.uits.iu.edu:8790/publication/Full%20text%20citation.pdf} }
Pereira Nunes, B., Kawase, R., Dietze, S., Taibi, D., Casanova, M.A. & Nejdl, W.	Can Entities be Friends? [Abstract] [BibTeX]	2012	Vol. 906Proceedings of the Web of Linked Entities Workshop in conjuction with the 11th International Semantic Web Conference, pp. 45-57	inproceedings	URL
Abstract: The richness of the (Semantic) Web lies in its ability to link related resources as well as data across the Web. However, while relations within particular datasets are often well defined, links between disparate datasets and corpora of Web resources are rare. The increasingly widespread use of cross-domain reference datasets, such as Freebase and DBpedia for annotating and enriching datasets as well as document corpora, opens up opportunities to exploit their inherent semantics to uncover semantic relationships between disparate resources. In this paper, we present an approach to uncover relationships between disparate entities by analyzing the graphs of used reference datasets. We adapt a relationship assessment methodology from social network theory to measure the connectivity between entities in reference datasets and exploit these measures to identify correlated Web resources. Finally, we present an evaluation of our approach using the publicly available datasets Bibsonomy and USAToday.
BibTeX: @inproceedings{pereiranunes2012entities, author = {Pereira Nunes, Bernardo and Kawase, Ricardo and Dietze, Stefan and Taibi, Davide and Casanova, Marco Antonio and Nejdl, Wolfgang}, title = {Can Entities be Friends?}, booktitle = {Proceedings of the Web of Linked Entities Workshop in conjuction with the 11th International Semantic Web Conference}, year = {2012}, volume = {906}, pages = {45--57}, url = {http://ceur-ws.org/Vol-906/paper6.pdf} }
Pereira Nunes, B., Kawase, R., Dietze, S., Taibi, D., Casanova, M.A. & Nejdl, W.	Can Entities be Friends? [Abstract] [BibTeX]	2012	Vol. 906Proceedings of the Web of Linked Entities Workshop in conjuction with the 11th International Semantic Web Conference, pp. 45-57	inproceedings	URL
Abstract: The richness of the (Semantic) Web lies in its ability to link related resources as well as data across the Web. However, while relations within particular datasets are often well defined, links between disparate datasets and corpora of Web resources are rare. The increasingly widespread use of cross-domain reference datasets, such as Freebase and DBpedia for annotating and enriching datasets as well as document corpora, opens up opportunities to exploit their inherent semantics to uncover semantic relationships between disparate resources. In this paper, we present an approach to uncover relationships between disparate entities by analyzing the graphs of used reference datasets. We adapt a relationship assessment methodology from social network theory to measure the connectivity between entities in reference datasets and exploit these measures to identify correlated Web resources. Finally, we present an evaluation of our approach using the publicly available datasets Bibsonomy and USAToday.
BibTeX: @inproceedings{pereiranunes2012entities, author = {Pereira Nunes, Bernardo and Kawase, Ricardo and Dietze, Stefan and Taibi, Davide and Casanova, Marco Antonio and Nejdl, Wolfgang}, title = {Can Entities be Friends?}, booktitle = {Proceedings of the Web of Linked Entities Workshop in conjuction with the 11th International Semantic Web Conference}, year = {2012}, volume = {906}, pages = {45--57}, url = {http://ceur-ws.org/Vol-906/paper6.pdf} }
Batagelj, V. & Zaveršnik, M.	Fast algorithms for determining (generalized) core groups in social networks [Abstract] [BibTeX]	2011	Advances in Data Analysis and Classification Vol. 5(2), pp. 129-145	article	DOI URL
Abstract: The structure of a large network (graph) can often be revealed by partitioning it into smaller and possibly more dense sub-networks that are easier to handle. One of such decompositions is based on “ k -cores”, proposed in 1983 by Seidman. Together with connectivity components, cores are one among few concepts that provide efficient decompositions of large graphs and networks. In this paper we propose an efficient algorithm for determining the cores decomposition of a given network with complexity $$O(m)$$, where m is the number of lines (edges or arcs). In the second part of the paper the classical concept of k -core is generalized in a way that uses a vertex property function instead of degree of a vertex. For local monotone vertex property functions the corresponding generalized cores can be determined in $$O(motn))$$ time, where n is the number of vertices and Δ is the maximum degree. Finally the proposed algorithms are illustrated by the analysis of a collaboration network in the field of computational geometry.
BibTeX: @article{batagelj2011algorithms, author = {Batagelj, Vladimir and Zaveršnik, Matjaž}, title = {Fast algorithms for determining (generalized) core groups in social networks}, journal = {Advances in Data Analysis and Classification}, publisher = {Springer}, year = {2011}, volume = {5}, number = {2}, pages = {129-145}, url = {http://dx.doi.org/10.1007/s11634-010-0079-y}, doi = {http://dx.doi.org/10.1007/s11634-010-0079-y} }
Ugander, J., Karrer, B., Backstrom, L. & Marlow, C.	The Anatomy of the Facebook Social Graph [Abstract] [BibTeX]	2011		misc	URL
Abstract: We study the structure of the social graph of active Facebook users, the rgest social network ever analyzed. We compute numerous features of the graph cluding the number of users and friendships, the degree distribution, path ngths, clustering, and mixing patterns. Our results center around three main servations. First, we characterize the global structure of the graph, termining that the social network is nearly fully connected, with 99.91% of dividuals belonging to a single large connected component, and we confirm the ix degrees of separation" phenomenon on a global scale. Second, by studying e average local clustering coefficient and degeneracy of graph neighborhoods, show that while the Facebook graph as a whole is clearly sparse, the graph ighborhoods of users contain surprisingly dense structure. Third, we aracterize the assortativity patterns present in the graph by studying the sic demographic and network properties of users. We observe clear degree sortativity and characterize the extent to which "your friends have more iends than you". Furthermore, we observe a strong effect of age on friendship eferences as well as a globally modular community structure driven by tionality, but we do not find any strong gender homophily. We compare our sults with those from smaller social networks and find mostly, but not tirely, agreement on common structural network characteristics.
BibTeX: @misc{ugander2011anatomy, author = {Ugander, Johan and Karrer, Brian and Backstrom, Lars and Marlow, Cameron}, title = {The Anatomy of the Facebook Social Graph}, year = {2011}, note = {cite arxiv:1111.4503Comment: 17 pages, 9 figures, 1 table}, url = {http://arxiv.org/abs/1111.4503} }
Chakrabarti, S., Pathak, A. & Gupta, M.	Index design and query processing for graph conductance search [Abstract] [BibTeX]	2010	The VLDB Journal, pp. 1-26	article	DOI URL
Abstract: Graph conductance queries, also known as personalized PageRank and related to random walks with restarts, were originally proposed to assign a hyperlink-based prestige score to Web pages. More general forms of such queries are also very useful for ranking in entity-relation (ER) graphs used to represent relational, XML and hypertext data. Evaluation of PageRank usually involves a global eigen computation. If the graph is even moderately large, interactive response times may not be possible. Recently, the need for interactive PageRank evaluation has increased. The graph may be fully known only when the query is submitted. Browsing actions of the user may change some inputs to the PageRank computation dynamically. In this paper, we describe a system that analyzes query workloads and the ER graph, invests in limited offline indexing, and exploits those indices to achieve essentially constant-time query processing, even as the graph size scales. Our techniques—data and query statistics collection, index selection and materialization, and query-time index exploitation—have parallels in the extensive relational query optimization literature, but is applied to supporting novel graph data repositories. We report on experiments with five temporal snapshots of the CiteSeer ER graph having 74–702 thousand entity nodes, 0.17–1.16 million word nodes, 0.29–3.26 million edges between entities, and 3.29–32.8 million edges between words and entities. We also used two million actual queries from CiteSeer’s logs. Queries run 3–4 orders of magnitude faster than whole-graph PageRank, the gap growing with graph size. Index size is smaller than a text index. Ranking accuracy is 94–98% with reference to whole-graph PageRank.
BibTeX: @article{springerlink:10.1007/s00778-010-0204-8, author = {Chakrabarti, Soumen and Pathak, Amit and Gupta, Manish}, title = {Index design and query processing for graph conductance search}, journal = {The VLDB Journal}, publisher = {Springer}, year = {2010}, pages = {1-26}, url = {http://dx.doi.org/10.1007/s00778-010-0204-8}, doi = {http://dx.doi.org/10.1007/s00778-010-0204-8} }
Isella, L., Stehlé, J., Barrat, A., Cattuto, C., Pinton, J.-F. & den Broeck, W.V.	What's in a crowd? Analysis of face-to-face behavioral networks [BibTeX]	2010	CoRR Vol. abs/1006.1260	article	URL
BibTeX: @article{journals/corr/abs-1006-1260, author = {Isella, Lorenzo and Stehlé, Juliette and Barrat, Alain and Cattuto, Ciro and Pinton, Jean-François and den Broeck, Wouter Van}, title = {What's in a crowd? Analysis of face-to-face behavioral networks}, journal = {CoRR}, year = {2010}, volume = {abs/1006.1260}, note = {informal publication}, url = {http://dblp.uni-trier.de/db/journals/corr/corr1006.html#abs-1006-1260} }
Mitzlaff, F., Benz, D., Stumme, G. & Hotho, A.	Visit me, click me, be my friend: An analysis of evidence networks of user relationships in Bibsonomy [BibTeX]	2010	Proceedings of the 21st ACM conference on Hypertext and hypermedia	inproceedings	URL
BibTeX: @inproceedings{mitzlaff2010visit, author = {Mitzlaff, Folke and Benz, Dominik and Stumme, Gerd and Hotho, Andreas}, title = {Visit me, click me, be my friend: An analysis of evidence networks of user relationships in Bibsonomy}, booktitle = {Proceedings of the 21st ACM conference on Hypertext and hypermedia}, year = {2010}, note = {(to appear)}, url = {http://www.kde.cs.uni-kassel.de/pub/pdf/mitzlaff2010visit.pdf} }
Mitzlaff, F., Benz, D., Stumme, G. & Hotho, A.	Visit me, click me, be my friend: An analysis of evidence networks of user relationships in Bibsonomy [BibTeX]	2010	Proceedings of the 21st ACM conference on Hypertext and hypermedia	inproceedings	URL
BibTeX: @inproceedings{mitzlaff2010visit, author = {Mitzlaff, Folke and Benz, Dominik and Stumme, Gerd and Hotho, Andreas}, title = {Visit me, click me, be my friend: An analysis of evidence networks of user relationships in Bibsonomy}, booktitle = {Proceedings of the 21st ACM conference on Hypertext and hypermedia}, year = {2010}, note = {(to appear)}, url = {http://www.kde.cs.uni-kassel.de/pub/pdf/mitzlaff2010visit.pdf} }
Akoglu, L. & Faloutsos, C.	RTG: A Recursive Realistic Graph Generator Using Random Typing. [BibTeX]	2009	Vol. 5781ECML/PKDD (1), pp. 13-28	inproceedings	URL
BibTeX: @inproceedings{conf/pkdd/AkogluF09, author = {Akoglu, Leman and Faloutsos, Christos}, title = {RTG: A Recursive Realistic Graph Generator Using Random Typing.}, booktitle = {ECML/PKDD (1)}, publisher = {Springer}, year = {2009}, volume = {5781}, pages = {13-28}, url = {http://dblp.uni-trier.de/db/conf/pkdd/pkdd2009-1.html#AkogluF09} }
Berlingerio, M., Bonchi, F., Bringmann, B. & Gionis, A.	Mining Graph Evolution Rules. [BibTeX]	2009	Vol. 5781ECML/PKDD (1), pp. 115-130	inproceedings	URL
BibTeX: @inproceedings{conf/pkdd/BerlingerioBBG09, author = {Berlingerio, Michele and Bonchi, Francesco and Bringmann, Björn and Gionis, Aristides}, title = {Mining Graph Evolution Rules.}, booktitle = {ECML/PKDD (1)}, publisher = {Springer}, year = {2009}, volume = {5781}, pages = {115-130}, url = {http://dblp.uni-trier.de/db/conf/pkdd/pkdd2009-1.html#BerlingerioBBG09} }
Fürnkranz, J., Hüllermeier, E. & Vanderlooy, S.	Binary Decomposition Methods for Multipartite Ranking [Abstract] [BibTeX]	2009	Machine Learning and Knowledge Discovery in Databases, pp. 359-374	article	URL
Abstract: Bipartite ranking refers to the problem of learning a ranking function from a training set of positively and negatively labeled amples. Applied to a set of unlabeled instances, a ranking function is expected to establish a total order in which positiveinstances precede negative ones. The performance of a ranking function is typically measured in terms of the AUC. In thispaper, we study the problem of multipartite ranking, an extension of bipartite ranking to the multi-class case. In this regard,we discuss extensions of the AUC metric which are suitable as evaluation criteria for multipartite rankings. Moreover, tolearn multipartite ranking functions, we propose methods on the basis of binary decomposition techniques that have previouslybeen used for multi-class and ordinal classification. We compare these methods both analytically and experimentally, not onlyagainst each other but also to existing methods applicable to the same problem.
BibTeX: @article{johannes2009binary, author = {Fürnkranz, Johannes and Hüllermeier, Eyke and Vanderlooy, Stijn}, title = {Binary Decomposition Methods for Multipartite Ranking}, journal = {Machine Learning and Knowledge Discovery in Databases}, year = {2009}, pages = {359--374}, url = {http://dx.doi.org/10.1007/978-3-642-04180-8_41} }
Gansner, E.R., Hu, Y. & Kobourov, S.G.	GMap: Drawing Graphs as Maps [Abstract] [BibTeX]	2009	cs.CG Vol. arXiv:0907.2585v1	article	URL
Abstract: Information visualization is essential in making sense out of large data sets. Often, high-dimensional data are visualized as a collection of points in 2-dimensional space through dimensionality reduction techniques. However, these traditional methods often do not capture well the underlying structural information, clustering, and neighborhoods. In this paper, we describe GMap: a practical tool for visualizing relational data with geographic-like maps. We illustrate the effectiveness of this approach with examples from several domains All the maps referenced in this paper can be found in http://www.research.att.com/~yifanhu/GMap
BibTeX: @article{gansner2009drawing, author = {Gansner, Emden R. and Hu, Yifan and Kobourov, Stephen G.}, title = {GMap: Drawing Graphs as Maps}, journal = {cs.CG}, year = {2009}, volume = {arXiv:0907.2585v1}, url = {http://arxiv.org/abs/0907.2585} }
Ghosh, R. & Lerman, K.	Structure of Heterogeneous Networks [Abstract] [BibTeX]	2009		misc	URL
Abstract: Heterogeneous networks play a key role in the evolution of communities and e decisions individuals make. These networks link different types of tities, for example, people and the events they attend. Network analysis gorithms usually project such networks unto simple graphs composed of tities of a single type. In the process, they conflate relations between tities of different types and loose important structural information. We velop a mathematical framework that can be used to compactly represent and alyze heterogeneous networks that combine multiple entity and link types. We neralize Bonacich centrality, which measures connectivity between nodes by e number of paths between them, to heterogeneous networks and use this asure to study network structure. Specifically, we extend the popular dularity-maximization method for community detection to use this centrality tric. We also rank nodes based on their connectivity to other nodes. One vantage of this centrality metric is that it has a tunable parameter we can e to set the length scale of interactions. By studying how rankings change th this parameter allows us to identify important nodes in the network. We ply the proposed method to analyze the structure of several heterogeneous tworks. We show that exploiting additional sources of evidence corresponding links between, as well as among, different entity types yields new insights to network structure.
BibTeX: @misc{Ghosh2009, author = {Ghosh, Rumi and Lerman, Kristina}, title = {Structure of Heterogeneous Networks}, year = {2009}, note = {cite arxiv:0906.2212 }, url = {http://arxiv.org/abs/0906.2212} }
Maes, F., Peters, S., Denoyer, L. & Gallinari, P.	Simulated Iterative Classification A New Learning Procedure for Graph Labeling. [Abstract] [BibTeX]	2009	Vol. 5782ECML/PKDD (2), pp. 47-62	inproceedings	URL
Abstract: Collective classification refers to the classification of interlinked and relational objects described as nodes in a graph. The Iterative Classification Algorithm (ICA) is a simple, efficient and widely used method to solve this problem. It is representative of a family of methods for which inference proceeds as an iterative process: at each step, nodes of the graph are classified according to the current predicted labels of their neighbors. We show that learning in this class of models suffers from a training bias. We propose a new family of methods, called Simulated ICA, which helps reducing this training bias by simulating inference during learning. Several variants of the method are introduced. They are both simple, efficient and scale well. Experiments performed on a series of 7 datasets show that the proposed methods outperform representative state-of-the-art algorithms while keeping a low complexity.
BibTeX: @inproceedings{conf/pkdd/MaesPDG09, author = {Maes, Francis and Peters, Stéphane and Denoyer, Ludovic and Gallinari, Patrick}, title = {Simulated Iterative Classification A New Learning Procedure for Graph Labeling.}, booktitle = {ECML/PKDD (2)}, publisher = {Springer}, year = {2009}, volume = {5782}, pages = {47-62}, url = {http://dblp.uni-trier.de/db/conf/pkdd/pkdd2009-2.html#MaesPDG09} }
Murata, T.	Modularities for Bipartite Networks [Abstract] [BibTeX]	2009	HT '09: Proceedings of the Twentieth ACM Conference on Hypertext and Hypermedia	inproceedings
Abstract: Real-world relations are often represented as bipartite networks, such as paper-author networks and event-attendee networks. Extracting dense subnetworks (communities) from bipartite networks and evaluating their qualities are practically important research topics. As the attempts for evaluating divisions of bipartite networks, Guimera and Barber propose bipartite modularities. This paper discusses the properties of these bipartite modularities and proposes another bipartite modularity that allows one-to-many correspondence of communities of different vertex types. Preliminary experimental results for the bipartite modularities are also described.
BibTeX: @inproceedings{murata2009modularities, author = {Murata, Tsuyoshi}, title = {Modularities for Bipartite Networks}, booktitle = {HT '09: Proceedings of the Twentieth ACM Conference on Hypertext and Hypermedia}, publisher = {ACM}, year = {2009} }
Butler, S.	Eigenvalues and Structures of Graphs [BibTeX]	2008	School: University of California, San Diego	phdthesis
BibTeX: @phdthesis{butler2008eas, author = {Butler, S.K.}, title = {Eigenvalues and Structures of Graphs}, school = {University of California, San Diego}, year = {2008} }
Filippone, M., Camastra, F., Masulli, F. & Rovetta, S.	A survey of kernel and spectral methods for clustering [BibTeX]	2008	Pattern recognition Vol. 41(1), pp. 176-190	article
BibTeX: @article{filippone2008ska, author = {Filippone, M. and Camastra, F. and Masulli, F. and Rovetta, S.}, title = {A survey of kernel and spectral methods for clustering}, journal = {Pattern recognition}, publisher = {Elsevier}, year = {2008}, volume = {41}, number = {1}, pages = {176--190} }
Jackson, M.	Average Distance, Diameter, and Clustering in Social Networks with Homophily [Abstract] [BibTeX]	2008	Internet and Network Economics, pp. 4-11	article	URL
Abstract: I examine a random network model where nodes are categorized by type and linking probabilities can differ across types. I ow that as homophily increases (so that the probability to link to other nodes of the same type increases and the probabilityof linking to nodes of some other types decreases) the average distance and diameter of the network are unchanged, while theaverage clustering in the network increases.
BibTeX: @article{matthew2008average, author = {Jackson, Matthew}, title = {Average Distance, Diameter, and Clustering in Social Networks with Homophily}, journal = {Internet and Network Economics}, year = {2008}, pages = {4--11}, url = {http://dx.doi.org/10.1007/978-3-540-92185-1_3} }
Nicosia, V., Mangioni, G., Carchiolo, V. & Malgeri, M.	Extending the definition of modularity to directed graphs with overlapping communities [Abstract] [BibTeX]	2008		misc	URL
Abstract: Complex networks topologies present interesting and surprising properties, ch as community structures, which can be exploited to optimize communication, find new efficient and context-aware routing algorithms or simply to derstand the dynamics and meaning of relationships among nodes. Complex tworks are gaining more and more importance as a reference model and are a werful interpretation tool for many different kinds of natural, biological d social networks, where directed relationships and contextual belonging of des to many different communities is a matter of fact. This paper starts from e definition of modularity function, given by M. Newman to evaluate the odness of network community decompositions, and extends it to the more neral case of directed graphs with overlapping community structures. teresting properties of the proposed extension are discussed, a method for nding overlapping communities is proposed and results of its application to nchmark case-studies are reported. We also propose a new dataset which could used as a reference benchmark for overlapping community structures entification.
BibTeX: @misc{Nicosia2008, author = {Nicosia, V. and Mangioni, G. and Carchiolo, V. and Malgeri, M.}, title = {Extending the definition of modularity to directed graphs with overlapping communities}, year = {2008}, note = {cite arxiv:0801.1647 mment: 22 pages, 11 figures}, url = {http://arxiv.org/abs/0801.1647} }
Symeonidis, P., Nanopoulos, A. & Manolopoulos, Y.	Tag recommendations based on tensor dimensionality reduction [BibTeX]	2008	RecSys '08: Proceedings of the 2008 ACM conference on Recommender systems, pp. 43-50	inproceedings	DOI URL
BibTeX: @inproceedings{1454017, author = {Symeonidis, Panagiotis and Nanopoulos, Alexandros and Manolopoulos, Yannis}, title = {Tag recommendations based on tensor dimensionality reduction}, booktitle = {RecSys '08: Proceedings of the 2008 ACM conference on Recommender systems}, publisher = {ACM}, year = {2008}, pages = {43--50}, url = {http://portal.acm.org/citation.cfm?id=1454017}, doi = {http://doi.acm.org/10.1145/1454008.1454017} }
Baur, M., Gaertler, M., Görke, R., Krug, M. & Wagner, D.	Generating Graphs with Predefined k-Core Structure [Abstract] [BibTeX]	2007	Proceedings of the European Conference of Complex Systems	inproceedings	URL
Abstract: The modeling of realistic networks is of great importance for modern complex systems research. Previous procedures typically model the natural growth of networks by means of iteratively adding nodes, geometric positioning information, a definition of link connectivity based on the preference for nearest neighbors or already highly connected nodes, or combine several of these approaches. Our novel model is based on the well-know concept of k-cores, originally introduced in social network analysis. Recent studies exposed the significant k-core structure of several real world systems, e.g. the AS network of the Internet. We present a simple and efficient method for generating networks which strictly adhere to the characteristics of a given k-core structure, called core fingerprint. We show-case our algorithm in a comparative evaluation with two well-known AS network generators.
BibTeX: @inproceedings{baur2007generating, author = {Baur, Michael and Gaertler, Marco and Görke, Robert and Krug, Marcus and Wagner, Dorothea}, title = {Generating Graphs with Predefined k-Core Structure}, booktitle = {Proceedings of the European Conference of Complex Systems}, year = {2007}, url = {http://i11www.ira.uka.de/extra/publications/bggkw-ggpcs-07.pdf} }
Brandes, U., Delling, D., Gaertler, M., Görke, R., Hoefer, M., Nikoloski, Z. & Wagner, D.	On Finding Graph Clusterings with Maximum Modularity [Abstract] [BibTeX]	2007	Vol. 4769Graph-Theoretic Concepts in Computer Science, pp. 121-132	incollection	DOI URL
Abstract: Modularity is a recently introduced quality measure for graph clusterings. It has immediately received considerable attention in several disciplines, and in particular in the complex systems literature, although its properties are not well understood. We study the problem of finding clusterings with maximum modularity, thus providing theoretical foundations for past and present work based on this measure. More precisely, we prove the conjectured hardness of maximizing modularity both in the general case and with the restriction to cuts, and give an Integer Linear Programming formulation. This is complemented by first insights into the behavior and performance of the commonly applied greedy agglomaration approach.
BibTeX: @incollection{springerlink:10.1007/978-3-540-74839-7_12, author = {Brandes, Ulrik and Delling, Daniel and Gaertler, Marco and Görke, Robert and Hoefer, Martin and Nikoloski, Zoran and Wagner, Dorothea}, title = {On Finding Graph Clusterings with Maximum Modularity}, booktitle = {Graph-Theoretic Concepts in Computer Science}, publisher = {Springer}, year = {2007}, volume = {4769}, pages = {121-132}, url = {http://dx.doi.org/10.1007/978-3-540-74839-7_12}, doi = {http://dx.doi.org/10.1007/978-3-540-74839-7_12} }
Luxburg, U.	A tutorial on spectral clustering [BibTeX]	2007	Statistics and Computing Vol. 17(4), pp. 395-416	article	DOI URL
BibTeX: @article{1288832, author = {Luxburg, Ulrike}, title = {A tutorial on spectral clustering}, journal = {Statistics and Computing}, publisher = {Kluwer Academic Publishers}, year = {2007}, volume = {17}, number = {4}, pages = {395--416}, url = {http://portal.acm.org/citation.cfm?id=1288832}, doi = {http://dx.doi.org/10.1007/s11222-007-9033-z} }
Schaeffer, S.	Graph clustering [BibTeX]	2007	Computer Science Review Vol. 1(1), pp. 27-64	article	URL
BibTeX: @article{schaeffer2007graph, author = {Schaeffer, S.E.}, title = {Graph clustering}, journal = {Computer Science Review}, publisher = {Elsevier}, year = {2007}, volume = {1}, number = {1}, pages = {27--64}, url = {http://scholar.google.de/scholar.bib?q=info:-vQhplU2EFYJ:scholar.google.com/&output=citation&hl=de&as_sdt=2000&ct=citation&cd=0} }
Spielman, D.	Spectral Graph Theory and its Applications [Abstract] [BibTeX]	2007	Foundations of Computer Science, 2007. FOCS '07. 48th Annual IEEE Symposium on, pp. 29-38	article	DOI
Abstract: Spectral graph theory is the study of the eigenvalues and eigenvectors of matrices associated with graphs. In this tutorial, we will try to provide some intuition as to why these eigenvectors and eigenvalues have combinatorial significance, and will sitn'ey some of their applications.
BibTeX: @article{4389477, author = {Spielman, D.A.}, title = {Spectral Graph Theory and its Applications}, journal = {Foundations of Computer Science, 2007. FOCS '07. 48th Annual IEEE Symposium on}, year = {2007}, pages = {29-38}, doi = {http://dx.doi.org/10.1109/FOCS.2007.56} }
Zesch, T. & Gurevych, I.	Analysis of the Wikipedia Category Graph for NLP Applications [Abstract] [BibTeX]	2007	Proceedings of the TextGraphs-2 Workshop (NAACL-HLT), pp. 1-8	inproceedings	URL
Abstract: In this paper, we discuss two graphs in Wikipedia (i) the article graph, and (ii) the category graph. We perform a graph-theoretic analysis of the category graph, and show that it is a scale-free, small world graph like other well-known lexical semantic networks. We substantiate our findings by transferring semantic relatedness algorithms defined on WordNet to the Wikipedia category graph. To assess the usefulness of the category graph as an NLP resource, we analyze its coverage and the performance of the transferred semantic relatedness algorithms.
BibTeX: @inproceedings{zesch2007analysis, author = {Zesch, Torsten and Gurevych, Iryna}, title = {Analysis of the Wikipedia Category Graph for NLP Applications}, booktitle = {Proceedings of the TextGraphs-2 Workshop (NAACL-HLT)}, publisher = {Association for Computational Linguistics}, year = {2007}, pages = {1--8}, url = {http://acl.ldc.upenn.edu/W/W07/W07-02.pdf#page=11} }
Butler, S.	Spectral Graph Theory: Applications of Courant Fischer [BibTeX]	2006		unpublished
BibTeX: @unpublished{butler2006, author = {Butler, Steve}, title = {Spectral Graph Theory: Applications of Courant Fischer}, year = {2006} }
Butler, S.	Spectral Graph Theory: Cheeger constants and discrepancy [BibTeX]	2006		unpublished
BibTeX: @unpublished{butler2006-3, author = {Butler, Steve}, title = {Spectral Graph Theory: Cheeger constants and discrepancy}, year = {2006} }
Butler, S.	Spectral Graph Theory: Three common spectra [BibTeX]	2006		unpublished
BibTeX: @unpublished{butler2006-1, author = {Butler, Steve}, title = {Spectral Graph Theory: Three common spectra}, year = {2006} }
Cantador, I. & Castells, P.	Building Emergent Social Networks and Group Profiles by Semantic User Preference Clustering [BibTeX]	2006		article
BibTeX: @article{cantador:bes, author = {Cantador, I. and Castells, P.}, title = {Building Emergent Social Networks and Group Profiles by Semantic User Preference Clustering}, year = {2006} }
Frivolt, G. & Pok, O.	Comparison of Graph Clustering Approaches [BibTeX]	2006		article
BibTeX: @article{frivolt:cgc, author = {Frivolt, G. and Pok, O.}, title = {Comparison of Graph Clustering Approaches}, year = {2006} }
Hotho, A., Jäschke, R., Schmitz, C. & Stumme, G.	Information Retrieval in Folksonomies: Search and Ranking [Abstract] [BibTeX]	2006	Vol. 4011The Semantic Web: Research and Applications, pp. 411-426	inproceedings
Abstract: Social bookmark tools are rapidly emerging on the Web. In such systems users are setting up lightweight conceptual structures called folksonomies. The reason for their immediate success is the fact that no specific skills are needed for participating. At the moment, however, the information retrieval support is limited. We present a formal model and a new search algorithm for folksonomies,called FolkRank, that exploits the structure of the folksonomy. The proposed algorithm is also applied to findcommunities within the folksonomy and is used to structure search results. All findings are demonstrated on a large scale dataset.
BibTeX: @inproceedings{hotho2006information, author = {Hotho, Andreas and Jäschke, Robert and Schmitz, Christoph and Stumme, Gerd}, title = {Information Retrieval in Folksonomies: Search and Ranking}, booktitle = {The Semantic Web: Research and Applications}, publisher = {Springer}, year = {2006}, volume = {4011}, pages = {411-426} }
Newman, M.E.J.	Modularity and community structure in networks [Abstract] [BibTeX]	2006	Proceedings of the National Academy of Sciences Vol. 103(23), pp. 8577-8582	article	DOI
Abstract: Many networks of interest in the sciences, including social networks, computer networks, and metabolic and regulatory networks, are found to divide naturally into communities or modules. The problem of detecting and characterizing this community structure is one of the outstanding issues in the study of networked systems. One highly effective approach is the optimization of the quality function known as “modularity” over the possible divisions of a network. Here I show that the modularity can be expressed in terms of the eigenvectors of a characteristic matrix for the network, which I call the modularity matrix, and that this expression leads to a spectral algorithm for community detection that returns results of demonstrably higher quality than competing methods in shorter running times. I illustrate the method with applications to several published network data sets.
BibTeX: @article{newman2006modularity, author = {Newman, M. E. J.}, title = {Modularity and community structure in networks}, journal = {Proceedings of the National Academy of Sciences}, year = {2006}, volume = {103}, number = {23}, pages = {8577--8582}, doi = {http://dx.doi.org/10.1073/pnas.0601602103} }
Newman, M.	Finding community structure in networks using the eigenvectors of matrices [BibTeX]	2006	Physical Review E Vol. 74(3), pp. 36104	article
BibTeX: @article{newman2006fcs, author = {Newman, MEJ}, title = {Finding community structure in networks using the eigenvectors of matrices}, journal = {Physical Review E}, publisher = {APS}, year = {2006}, volume = {74}, number = {3}, pages = {36104} }
Newman, M.	Modularity and community structure in networks [BibTeX]	2006	Proceedings of the National Academy of Sciences Vol. 103(23), pp. 8577-8582	article
BibTeX: @article{newman2006mac, author = {Newman, MEJ}, title = {Modularity and community structure in networks}, journal = {Proceedings of the National Academy of Sciences}, publisher = {National Acad Sciences}, year = {2006}, volume = {103}, number = {23}, pages = {8577--8582} }
Schmitz, C., Hotho, A., Jäschke, R. & Stumme, G.	Content Aggregation on Knowledge Bases using Graph Clustering [Abstract] [BibTeX]	2006	Vol. 4011The Semantic Web: Research and Applications, pp. 530-544	inproceedings	URL
Abstract: Recently, research projects such as PADLR and SWAP have developed tools like Edutella or Bibster, which are targeted at establishing peer-to-peer knowledge management (P2PKM) systems. In such a system, it is necessary to obtain provide brief semantic descriptions of peers, so that routing algorithms or matchmaking processes can make decisions about which communities peers should belong to, or to which peers a given query should be forwarded. This paper provides a graph clustering technique on knowledge bases for that purpose. Using this clustering, we can show that our strategy requires up to 58% fewer queries than the baselines to yield full recall in a bibliographic P2PKM scenario.
BibTeX: @inproceedings{schmitz2006content, author = {Schmitz, Christoph and Hotho, Andreas and Jäschke, Robert and Stumme, Gerd}, title = {Content Aggregation on Knowledge Bases using Graph Clustering}, booktitle = {The Semantic Web: Research and Applications}, publisher = {Springer}, year = {2006}, volume = {4011}, pages = {530-544}, url = {http://www.kde.cs.uni-kassel.de/stumme/papers/2006/schmitz2006content.pdf} }
Dhillon, I.S., Guan, Y. & Kulis, B.	A Unified View of Kernel k-means, Spectral Clustering and Graph Cuts [Abstract] [BibTeX]	2005	(TR-04-25)	techreport	URL
Abstract: Recently, a variety of clustering algorithms have been proposed to handle data that is not linearly separable. Spectral clustering and kernel k-means are two such methods that are seemingly quite different. In this paper, we show that a general weighted kernel k-means objective is mathematically equivalent to a weighted graph partitioning objective. Special cases of this graph partitioning objective include ratio cut, normalized cut and ratio association. Our equivalence has important consequences: the weighted kernel k-means algorithm may be used to directly optimize the graph partitioning objectives, and conversely, spectral methods may be used to optimize the weighted kernel k-means objective. Hence, in cases where eigenvector computation is prohibitive, we eliminate the need for any eigenvector computation for graph partitioning. Moreover, we show that the Kernighan-Lin objective can also be incorporated into our framework, leading to an incremental weighted kernel k-means algorithm for local optim ization of the objective. We further discuss the issue of convergence of weighted kernel k-means for an arbitrary graph affinity matrix and provide a number of experimental results. These results show that non-spectral methods for graph partitioning are as effective as spectral methods and can be used for problems such as image segmentation in addition to data clustering.
BibTeX: @techreport{Dhillon:EtAl:05, author = {Dhillon, Inderjit S. and Guan, Yuqiang and Kulis, Brian}, title = {A Unified View of Kernel k-means, Spectral Clustering and Graph Cuts}, year = {2005}, number = {TR-04-25}, url = {http://www.cs.utexas.edu/ftp/pub/techreports/tr04-25.pdf} }
Dias, V.M., de Figueiredo, C.M. & Szwarcfiter, J.L.	Generating bicliques of a graph in lexicographic order [Abstract] [BibTeX]	2005	Theoretical Computer Science Vol. 337(1-3), pp. 240 - 248	article	DOI URL
Abstract: An independent set of a graph is a subset of pairwise non-adjacent vertices. A complete bipartite set B is a subset of vertices admitting a bipartition B=X[union or logical sum]Y, such that both X and Y are independent sets, and all vertices of X are adjacent to those of Y. If both X,Y[not equal to][empty set], then B is called proper. A biclique is a maximal proper complete bipartite set of a graph. We present an algorithm that generates all bicliques of a graph in lexicographic order, with polynomial-time delay between the output of two successive bicliques. We also show that there is no polynomial-time delay algorithm for generating all bicliques in reverse lexicographic order, unless P=NP. The methods are based on those by Johnson, Papadimitriou and Yannakakis, in the solution of these two problems for independent sets, instead of bicliques.
BibTeX: @article{Dias2005240, author = {Dias, Vânia M.F. and de Figueiredo, Celina M.H. and Szwarcfiter, Jayme L.}, title = {Generating bicliques of a graph in lexicographic order}, journal = {Theoretical Computer Science}, year = {2005}, volume = {337}, number = {1-3}, pages = {240 - 248}, url = {http://www.sciencedirect.com/science/article/B6V1G-4FD0HTT-3/2/7efa1ee4d7b4823c7315a58b94f2f280}, doi = {DOI: 10.1016/j.tcs.2005.01.014} }
Diestel, R.	Graph Theory [BibTeX]	2005	, pp. I-XVI, 1-344	book	URL
BibTeX: @book{diestel2006graphentheorie, author = {Diestel, Reinhard}, title = {Graph Theory}, publisher = {Springer-Verlag Heidelberg, New York}, year = {2005}, pages = {I-XVI, 1-344}, edition = {3 (electronic edition)}, url = {http://www.math.ubc.ca/~solymosi/2007/443/GraphTheoryIII.pdf} }
Lerner, J.	Role Assignments [Abstract] [BibTeX]	2005	Vol. 3418Network Analysis, pp. 216-252	incollection	DOI URL
Abstract: 9.0. 9.0.1. Preliminaries 9.0.2. Role Graph 9.1. Structural Equivalence 9.1.1. Lattice of Equivalence Relations 9.1.2. Lattice of Structural Equivalences 9.1.3. Computation of Structural Equivalences 9.2. Regular Equivalence 9.2.1. Elementary Properties 9.2.2. Lattice Structure and Regular Interior 9.2.3. Computation of Regular Interior 9.2.4. The Role Assignment Problem 9.2.5. Existence of k-Role Assignments 9.3. Other Equivalences 9.3.1. Exact Role Assignments 9.3.2. Automorphic and Orbit Equivalence 9.3.3. Perfect Equivalence 9.3.4. Relative Regular Equivalence 9.4. Graphs with Multiple Relations 9.5. The Semigroup of a Graph 9.5.1. Winship-Pattison Role Equivalence 9.6. Chapter Notes
BibTeX: @incollection{lerner2005assignments, author = {Lerner, Jürgen}, title = {Role Assignments}, booktitle = {Network Analysis}, publisher = {Springer}, year = {2005}, volume = {3418}, pages = {216-252}, url = {http://dx.doi.org/10.1007/978-3-540-31955-9_9}, doi = {http://dx.doi.org/10.1007/978-3-540-31955-9_9} }
White, S. & Smyth, P.	A spectral clustering approach to finding communities in graph [BibTeX]	2005	SIAM Data Mining	article
BibTeX: @article{white2005sca, author = {White, S. and Smyth, P.}, title = {A spectral clustering approach to finding communities in graph}, booktitle = {SIAM Data Mining}, year = {2005} }
An, Y., Janssen, J. & Milios, E.E.	Characterizing and Mining the Citation Graph of the Computer Science Literature [BibTeX]	2004	Knowl. Inf. Syst. Vol. 6, pp. 664-678	article	DOI URL
BibTeX: @article{an2004characterizing, author = {An, Yuan and Janssen, Jeannette and Milios, Evangelos E.}, title = {Characterizing and Mining the Citation Graph of the Computer Science Literature}, journal = {Knowl. Inf. Syst.}, publisher = {Springer-Verlag New York, Inc.}, year = {2004}, volume = {6}, pages = {664--678}, url = {http://dx.doi.org/10.1007/s10115-003-0128-3}, doi = {http://dx.doi.org/10.1007/s10115-003-0128-3} }
Bollobás*, B. & Riordan, O.	The Diameter of a Scale-Free Random Graph [Abstract] [BibTeX]	2004	Combinatorica Vol. 24(1), pp. 5-34	article	URL
Abstract: We consider a random graph process in which vertices are added to the graph one at a time and joined to a fixed number m of earlier vertices, where each earlier vertex is chosen with probability proportional to its degree. This process was introduced by Barabási and Albert [3], as a simple model of the growth of real-world graphs such as the world-wide web. Computer experiments presented by Barabási, Albert and Jeong [1,5] and heuristic arguments given by Newman, Strogatz and Watts [23] suggest that after n steps the resulting graph should have diameter approximately log n. We show that while this holds for m=1, for m=2 the diameter is asymptotically log n/log log n. -
BibTeX: @article{keyhere, author = {Bollobás*, Béla and Riordan, Oliver}, title = {The Diameter of a Scale-Free Random Graph}, journal = {Combinatorica}, year = {2004}, volume = {24}, number = {1}, pages = {5--34}, url = {http://dx.doi.org/10.1007/s00493-004-0002-2} }
Drineas, P., Frieze, A., Kannan, R., Vempala, S. & Vinay, V.	Clustering large graphs via the singular value decomposition [BibTeX]	2004	Machine Learning Vol. 56(1), pp. 9-33	article	URL
BibTeX: @article{drineas2004clustering, author = {Drineas, P. and Frieze, A. and Kannan, R. and Vempala, S. and Vinay, V.}, title = {Clustering large graphs via the singular value decomposition}, journal = {Machine Learning}, publisher = {Springer}, year = {2004}, volume = {56}, number = {1}, pages = {9--33}, url = {http://scholar.google.de/scholar.bib?q=info:gQY9HvWhsJcJ:scholar.google.com/&output=citation&hl=de&ct=citation&cd=0} }
Flake, G., Tarjan, R. & Tsioutsiouliklis, K.	Graph clustering and minimum cut trees [BibTeX]	2004	Internet Mathematics Vol. 1(4), pp. 385-408	article	URL
BibTeX: @article{flake2004graph, author = {Flake, G.W. and Tarjan, R.E. and Tsioutsiouliklis, K.}, title = {Graph clustering and minimum cut trees}, journal = {Internet Mathematics}, publisher = {AK Peters}, year = {2004}, volume = {1}, number = {4}, pages = {385--408}, url = {http://scholar.google.de/scholar.bib?q=info:27hvFfjDdrkJ:scholar.google.com/&output=citation&hl=de&ct=citation&cd=6} }
Langville, A. & Meyer, C.	Deeper inside pagerank [BibTeX]	2004	Internet Mathematics Vol. 1(3), pp. 335-380	article	URL
BibTeX: @article{langville2004deeper, author = {Langville, A.N. and Meyer, C.D.}, title = {Deeper inside pagerank}, journal = {Internet Mathematics}, publisher = {AK Peters}, year = {2004}, volume = {1}, number = {3}, pages = {335--380}, url = {http://scholar.google.de/scholar.bib?q=info:2bjOOHLGPW8J:scholar.google.com/&output=citation&hl=de&ct=citation&cd=0} }
Batagelj, V. & Zaversnik, M.	An O(m) Algorithm for Cores Decomposition of Networks [Abstract] [BibTeX]	2003		misc	URL
Abstract: The structure of large networks can be revealed by partitioning them to aller parts, which are easier to handle. One of such decompositions is based $k$--cores, proposed in 1983 by Seidman. In the paper an efficient, $O(m)$, $ is the number of lines, algorithm for determining the cores decomposition a given network is presented.
BibTeX: @misc{batagelj2003algorithm, author = {Batagelj, V. and Zaversnik, M.}, title = {An O(m) Algorithm for Cores Decomposition of Networks}, year = {2003}, note = {cite arxiv:cs/0310049}, url = {http://arxiv.org/abs/cs/0310049} }
Brandes, U., Gaertler, M. & Wagner, D.	Experiments on graph clustering algorithms [BibTeX]	2003	Lecture notes in computer science, pp. 568-579	article	URL
BibTeX: @article{brandes2003experiments, author = {Brandes, U. and Gaertler, M. and Wagner, D.}, title = {Experiments on graph clustering algorithms}, journal = {Lecture notes in computer science}, publisher = {Springer}, year = {2003}, pages = {568--579}, url = {http://scholar.google.de/scholar.bib?q=info:gDNQfOoSm6cJ:scholar.google.com/&output=citation&hl=de&ct=citation&cd=2} }
Estrada, E. & Rodriguez-Velázquez, J.	Spectral measures of bipartivity in complex networks [BibTeX]	2003	SIAM Rev Phys Rev E Vol. 72, pp. 046105	article
BibTeX: @article{estrada2003smb, author = {Estrada, E. and Rodriguez-Velázquez, J.A.}, title = {Spectral measures of bipartivity in complex networks}, journal = {SIAM Rev Phys Rev E}, publisher = {APS}, year = {2003}, volume = {72}, pages = {046105} }
Haveliwala, T. & Kamvar, S.	The second eigenvalue of the Google matrix [BibTeX]	2003	A Stanford University Technical Report http://dbpubs. stanford. edu	article
BibTeX: @article{haveliwala8090seg, author = {Haveliwala, T.H. and Kamvar, S.D.}, title = {The second eigenvalue of the Google matrix}, journal = {A Stanford University Technical Report http://dbpubs. stanford. edu}, year = {2003} }
Newman, M.E.J.	The structure and function of complex networks [BibTeX]	2003	SIAM Review Vol. 45(2), pp. 167-256	article
BibTeX: @article{New03, author = {Newman, M. E. J.}, title = {The structure and function of complex networks}, journal = {SIAM Review}, year = {2003}, volume = {45}, number = {2}, pages = {167-256} }
Verma, D. & Meila, M.	A comparison of spectral clustering algorithms [BibTeX]	2003	University of Washington, Tech. Rep. UW-CSE-03-05-01	article
BibTeX: @article{verma2003csc, author = {Verma, D. and Meila, M.}, title = {A comparison of spectral clustering algorithms}, journal = {University of Washington, Tech. Rep. UW-CSE-03-05-01}, year = {2003} }
Yu, S.X. & Shi, J.	Multiclass Spectral Clustering [BibTeX]	2003	Proc. International Conference on Computer Vision (ICCV 03)	inproceedings
BibTeX: @inproceedings{yu2003multiclass, author = {Yu, Stella X. and Shi, Jianbo}, title = {Multiclass Spectral Clustering}, booktitle = {Proc. International Conference on Computer Vision (ICCV 03)}, year = {2003} }
Blelloch, G.	Graph Separators [BibTeX]	2002		unpublished
BibTeX: @unpublished{graphseparators02, author = {Blelloch, Guy}, title = {Graph Separators}, year = {2002} }
Brandes, U. & Willhalm, T.	Visualization of bibliographic networks with a reshaped landscape metaphor [Abstract] [BibTeX]	2002	Proceedings of the symposium on Data Visualisation 2002, pp. 159-ff	inproceedings	URL
Abstract: We describe a novel approach to visualize bibliographic networks that facilitates the simultaneous identification of clusters (e.g., topic areas) and prominent entities (e.g., surveys or landmark papers). While employing the landscape metaphor proposed in several earlier works, we introduce new means to determine relevant parameters of the landscape. Moreover, we are able to compute prominent entities, clustering of entities, and the landscape's surface in a surprisingly simple and uniform way. The effectiveness of our network visualizations is illustrated on data from the graph drawing literature.
BibTeX: @inproceedings{Brandes:2002:VBN:509740.509765, author = {Brandes, U. and Willhalm, T.}, title = {Visualization of bibliographic networks with a reshaped landscape metaphor}, booktitle = {Proceedings of the symposium on Data Visualisation 2002}, publisher = {Eurographics Association}, year = {2002}, pages = {159--ff}, url = {http://portal.acm.org/citation.cfm?id=509740.509765} }
Snijders, T.	Markov chain Monte Carlo estimation of exponential random graph models [BibTeX]	2002	Journal of Social Structure Vol. 3(2), pp. 1-40	article
BibTeX: @article{snijders2002mcm, author = {Snijders, T.A.B.}, title = {Markov chain Monte Carlo estimation of exponential random graph models}, journal = {Journal of Social Structure}, year = {2002}, volume = {3}, number = {2}, pages = {1--40} }
Soderberg, B.	General formalism for inhomogeneous random graphs [BibTeX]	2002	Phys. Rev. E Vol. 66(6), pp. 066121	article
BibTeX: @article{soderberg2002gfi, author = {Soderberg, B.}, title = {General formalism for inhomogeneous random graphs}, journal = {Phys. Rev. E}, publisher = {APS}, year = {2002}, volume = {66}, number = {6}, pages = {066121} }
Dhillon, I.S.	Co-clustering documents and words using bipartite spectral graph partitioning [BibTeX]	2001	KDD '01: Proceedings of the seventh ACM SIGKDD international conference on Knowledge discovery and data mining, pp. 269-274	inproceedings	DOI URL
BibTeX: @inproceedings{coclustering01, author = {Dhillon, Inderjit S.}, title = {Co-clustering documents and words using bipartite spectral graph partitioning}, booktitle = {KDD '01: Proceedings of the seventh ACM SIGKDD international conference on Knowledge discovery and data mining}, publisher = {ACM Press}, year = {2001}, pages = {269--274}, url = {http://portal.acm.org/citation.cfm?id=502512.502550}, doi = {http://dx.doi.org/10.1145/502512.502550} }
Monien, B.	On Spectral Bounds for the k-Partitioning of Graphs [BibTeX]	2001		misc
BibTeX: @misc{Monien_onspectral, author = {Monien, B.}, title = {On Spectral Bounds for the k-Partitioning of Graphs}, year = {2001} }
Newman, M., Strogatz, S. & Watts, D.	Random graphs with arbitrary degree distributions and their applications [BibTeX]	2001	Arxiv preprint cond-mat/0007235	article
BibTeX: @article{newman2001rga, author = {Newman, MEJ and Strogatz, SH and Watts, DJ}, title = {Random graphs with arbitrary degree distributions and their applications}, journal = {Arxiv preprint cond-mat/0007235}, year = {2001} }
Ng, A.Y., Jordan, M.I. & Weiss, Y.	On spectral clustering: Analysis and an algorithm [Abstract] [BibTeX]	2001	Advances in Neural Information Processing Systems 14, pp. 849-856	inproceedings
Abstract: Despite many empirical successes of spectral clustering methods\| algorithms that cluster points using eigenvectors of matrices derived from the data\|there are several unresolved issues. First, there are a wide variety of algorithms that use the eigenvectors in slightly dierent ways. Second, many of these algorithms have no proof that they will actually compute a reasonable clustering. In this paper, we present a simple spectral clustering algorithm that can be implemented using a few lines of Matlab. Using tools from matrix perturbation theory, we analyze the algorithm, and give conditions under which it can be expected to do well. We also show surprisingly good experimental results on a number of challenging clustering problems. 1
BibTeX: @inproceedings{Ng01onspectral, author = {Ng, Andrew Y. and Jordan, Michael I. and Weiss, Yair}, title = {On spectral clustering: Analysis and an algorithm}, booktitle = {Advances in Neural Information Processing Systems 14}, publisher = {MIT Press}, year = {2001}, pages = {849--856} }
Aiello, W., Chung, F. & Lu, L.	A random graph model for massive graphs [BibTeX]	2000	Proceedings of the thirty-second annual ACM symposium on Theory of computing, pp. 171-180	article	URL
BibTeX: @article{aiello2000random, author = {Aiello, W. and Chung, F. and Lu, L.}, title = {A random graph model for massive graphs}, booktitle = {Proceedings of the thirty-second annual ACM symposium on Theory of computing}, year = {2000}, pages = {171--180}, url = {http://scholar.google.de/scholar.bib?q=info:iG723gINfRAJ:scholar.google.com/&output=citation&hl=de&ct=citation&cd=0} }
Butler, S.	Cospectral graphs for both the adjacency and normalized Laplacian matrices [BibTeX]	2000		article
BibTeX: @article{butler:cgb, author = {Butler, S.}, title = {Cospectral graphs for both the adjacency and normalized Laplacian matrices}, year = {2000} }
Gansner, E.R. & North, S.C.	An open graph visualization system and its applications to software engineering [Abstract] [BibTeX]	2000	Software Practice & Experience Vol. 30(11), pp. 1203-1233	article	DOI URL
Abstract: We describe a package of practical tools and libraries for manipulating graphs and their drawings. Our design, which aimed at facilitating the combination of the package components with other tools, includes stream and event interfaces for graph operations, high-quality static and dynamic layout algorithms, and the ability to handle sizable graphs. We conclude with a description of the applications of this package to a variety of software engineering tools.
BibTeX: @article{gansner2000graph, author = {Gansner, Emden R. and North, Stephen C.}, title = {An open graph visualization system and its applications to software engineering}, journal = {Software Practice & Experience}, publisher = {John Wiley & Sons, Inc.}, year = {2000}, volume = {30}, number = {11}, pages = {1203--1233}, url = {http://dl.acm.org/citation.cfm?id=358668.358697}, doi = {http://dx.doi.org/10.1002/1097-024X(200009)30:11<1203::AID-SPE338>3.3.CO;2-E} }
Janson, S., Luczak, T. & Rucinski, A.	Theory of random graphs [BibTeX]	2000		book	URL
BibTeX: @book{janson2000theory, author = {Janson, Svante and Luczak, Tomasz and Rucinski, Andrzej}, title = {Theory of random graphs}, publisher = {John Wiley & Sons}, year = {2000}, url = {http://www.amazon.com/Random-Graphs-Svante-Janson/dp/0471175412} }
Ranade, A.	Some uses of spectral methods [BibTeX]	2000		unpublished
BibTeX: @unpublished{ranade:sus, author = {Ranade, A.G.}, title = {Some uses of spectral methods}, year = {2000} }
Anderson, C., Wasserman, S. & Crouch, B.	A p* primer: Logit models for social networks [BibTeX]	1999	Social Networks Vol. 21(1), pp. 37-66	article
BibTeX: @article{anderson1999ppl, author = {Anderson, C.J. and Wasserman, S. and Crouch, B.}, title = {A p* primer: Logit models for social networks}, journal = {Social Networks}, publisher = {Elsevier}, year = {1999}, volume = {21}, number = {1}, pages = {37--66} }
Barabasi, A.L. & Albert, R.	Emergence of scaling in random networks [Abstract] [BibTeX]	1999	Science Vol. 286(5439), pp. 509-512	article	URL
Abstract: Systems as diverse as genetic networks or the World Wide Web are best described as networks with complex topology. A common property of many large networks is that the vertex connectivities follow a scale-free power-law distribution. This feature was found to be a consequence of two generic mechanisms: (i) networks expand continuously by the addition of new vertices, and (ii) new vertices attach preferentially to sites that are already well connected. A model based on these two ingredients reproduces the observed stationary scale-free distributions, which indicates that the development of large networks is governed by robust self-organizing phenomena that go beyond the particulars of the individual systems.
BibTeX: @article{citeulike:90557, author = {Barabasi, A. L. and Albert, R.}, title = {Emergence of scaling in random networks}, journal = {Science}, year = {1999}, volume = {286}, number = {5439}, pages = {509--512}, url = {http://view.ncbi.nlm.nih.gov/pubmed/10521342} }
Batagelj, V., Mrvar, A. & Zaveršnik, M.	Partitioning Approach to Visualization of Large Graphs [Abstract] [BibTeX]	1999	Vol. 1731Graph Drawing, pp. 90-97	incollection	DOI URL
Abstract: The structure of large graphs can be revealed by partitioning graphs to smaller parts, which are easier to handle. In the paper we propose the use of core decomposition as an efficient approach for partitioning large graphs. On the selected subgraphs, computationally more intensive, clustering and blockmodeling can be used to analyze their internal structure. The approach is illustrated by an analysis of Snyder & Kick’s world trade graph.
BibTeX: @incollection{batagelj1999partitioning, author = {Batagelj, Vladimir and Mrvar, Andrej and Zaveršnik, Matjaž}, title = {Partitioning Approach to Visualization of Large Graphs}, booktitle = {Graph Drawing}, publisher = {Springer}, year = {1999}, volume = {1731}, pages = {90-97}, url = {http://dx.doi.org/10.1007/3-540-46648-7_9}, doi = {http://dx.doi.org/10.1007/3-540-46648-7_9} }
Brin, S. & Page, L.	The Anatomy of a Large-Scale Hypertextual Web Search Engine [Abstract] [BibTeX]	1998	Computer Networks and ISDN Systems, pp. 107-117	inproceedings	URL
Abstract: In this paper, we present Google, a prototype of a large-scale search engine which makes heavy use of the structure present in hypertext. Google is designed to crawl and index the Web efficiently and produce much more satisfying search results than existing systems. The prototype with a full text and hyperlink database of at least 24 million pages is available at http://infolab.stanford.edu/~backrub/google.html To engineer a search engine is a challenging task. Search engines index tens to hundreds of millions of web pages involving a comparable number of distinct terms. They answer tens of millions of queries every day. Despite the importance of large-scale search engines on the web, very little academic research has been done on them. Furthermore, due to rapid advance in technology and web proliferation, creating a web search engine today is very different from three years ago. This paper provides an in-depth description of our large-scale web search engine -- the first such detailed public description w...
BibTeX: @inproceedings{Brin98theanatomy, author = {Brin, Sergey and Page, Lawrence}, title = {The Anatomy of a Large-Scale Hypertextual Web Search Engine}, booktitle = {Computer Networks and ISDN Systems}, year = {1998}, pages = {107--117}, url = {http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.42.3243} }
Guattery, S. & Miller, G.	On the quality of spectral separators [BibTeX]	1998	SIAM Journal on Matrix Analysis and Applications Vol. 19(3), pp. 701-719	article
BibTeX: @article{guattery1998qss, author = {Guattery, S. and Miller, G.L.}, title = {On the quality of spectral separators}, journal = {SIAM Journal on Matrix Analysis and Applications}, publisher = {[Philadelphia, Pa.: The Society, c1988-}, year = {1998}, volume = {19}, number = {3}, pages = {701--719} }
Karypis, G. & Kumar, V.	Multilevel k-way Hypergraph Partitioning [Abstract] [BibTeX]	1998	In Proceedings of the Design and Automation Conference, pp. 343-348	inproceedings
Abstract: In this paper, we present a new multilevel k-way hypergraph partitioning algorithm that substantially outperforms the existing state-of-the-art K-PM/LR algorithm for multi-way partitioning. both for optimizing local as well as global objectives. Experiments on the ISPD98 benchmark suite show that the partitionings produced by our scheme are on the average 15% to 23% better than those produced by the K-PM/LR algorithm, both in terms of the hyperedge cut as well as the (K - 1) metric. Furthermore, our algorithm is significantly faster, requiring 4 to 5 times less time than that required by K-PM/LR. 1 Introduction Hypergraph partitioning is an important problem with extensive application to many areas, including VLSI design [10], efficient storage of large databases on disks [14], and data mining [13]. The problem is to partition the vertices of a hypergraph into k roughly equal parts, such that a certain objective function defined over the hyperedges is optimized. A commonly used obje...
BibTeX: @inproceedings{Karypis98multilevelk-way, author = {Karypis, George and Kumar, Vipin}, title = {Multilevel k-way Hypergraph Partitioning}, booktitle = {In Proceedings of the Design and Automation Conference}, year = {1998}, pages = {343--348} }
Chung, F.R.K.	Spectral Graph Theory [BibTeX]	1997		book
BibTeX: @book{Chung:1997, author = {Chung, F. R. K.}, title = {Spectral Graph Theory}, publisher = {American Mathematical Society}, year = {1997} }
Karypis, G., Aggarwal, R., Kumar, V. & Shekhar, S.	Multilevel hypergraph partitioning: Application in VLSI domain [BibTeX]	1997	Proceedings of the 34th annual conference on Design automation, pp. 526-529	article
BibTeX: @article{karypis1997mhp, author = {Karypis, G. and Aggarwal, R. and Kumar, V. and Shekhar, S.}, title = {Multilevel hypergraph partitioning: Application in VLSI domain}, booktitle = {Proceedings of the 34th annual conference on Design automation}, year = {1997}, pages = {526--529} }
Mohar, B.	Some applications of Laplace eigenvalues of graphs [BibTeX]	1997	Graph Symmetry: Algebraic Methods and Applications Vol. 497, pp. 227-275	article
BibTeX: @article{mohar1997sal, author = {Mohar, B.}, title = {Some applications of Laplace eigenvalues of graphs}, journal = {Graph Symmetry: Algebraic Methods and Applications}, publisher = {Kluwer}, year = {1997}, volume = {497}, pages = {227--275} }
Spielman, D.A. & Teng, S.	Spectral Partitioning Works: Planar Graphs and Finite Element Meshes [BibTeX]	1996		techreport
BibTeX: @techreport{Spielman:1996, author = {Spielman, Daniel A. and Teng, Shang}, title = {Spectral Partitioning Works: Planar Graphs and Finite Element Meshes}, publisher = {University of California at Berkeley}, year = {1996} }
Alpert, C.J., Kahng, A.B. & zen Yao, S.	Spectral partitioning: The more eigenvectors, the better [BibTeX]	1995	Proc. ACM/IEEE Design Automation Conf, pp. 195-200	inproceedings
BibTeX: @inproceedings{Alpert95spectralpartitioning:, author = {Alpert, Charles J. and Kahng, Andrew B. and zen Yao, So}, title = {Spectral partitioning: The more eigenvectors, the better}, booktitle = {Proc. ACM/IEEE Design Automation Conf}, year = {1995}, pages = {195--200} }
Molloy, M. & Reed, B.	A critical point for random graphs with a given degree sequence [BibTeX]	1995	Random Structures & Algorithms Vol. 6, pp. 161-179	misc	URL
BibTeX: @misc{molloy_reed95, author = {Molloy, M. and Reed, B.}, title = {A critical point for random graphs with a given degree sequence}, journal = {Random Structures & Algorithms}, year = {1995}, volume = {6}, pages = {161-179}, url = {/brokenurl#citeseer.ist.psu.edu/molloy95critical.html} }
Bolla, M. & Tusnády, G.	Spectra and optimal partitions of weighted graphs [BibTeX]	1994	Discrete Math. Vol. 128(1-3), pp. 1-20	article	DOI URL
BibTeX: @article{179359, author = {Bolla, Marianna and Tusnády, Gábor}, title = {Spectra and optimal partitions of weighted graphs}, journal = {Discrete Math.}, publisher = {Elsevier Science Publishers B. V.}, year = {1994}, volume = {128}, number = {1-3}, pages = {1--20}, url = {http://portal.acm.org/citation.cfm?id=179357.179359}, doi = {http://dx.doi.org/10.1016/0012-365X(94)90100-7} }
Chan, P.K., Schlag, M.D.F. & Zien, J.Y.	Spectral K-way ratio-cut partitioning and clustering. [BibTeX]	1994	IEEE Trans. on CAD of Integrated Circuits and Systems Vol. 13(9), pp. 1088-1096	article	URL
BibTeX: @article{journals/tcad/ChanSZ94, author = {Chan, Pak K. and Schlag, Martine D. F. and Zien, Jason Y.}, title = {Spectral K-way ratio-cut partitioning and clustering.}, journal = {IEEE Trans. on CAD of Integrated Circuits and Systems}, year = {1994}, volume = {13}, number = {9}, pages = {1088-1096}, url = {http://dblp.uni-trier.de/db/journals/tcad/tcad13.html#ChanSZ94} }
Hagen, L.W. & Kahng, A.B.	New spectral methods for ratio cut partitioning and clustering. [BibTeX]	1992	IEEE Trans. on CAD of Integrated Circuits and Systems Vol. 11(9), pp. 1074-1085	article	URL
BibTeX: @article{journals/tcad/HagenK92, author = {Hagen, Lars W. and Kahng, Andrew B.}, title = {New spectral methods for ratio cut partitioning and clustering.}, journal = {IEEE Trans. on CAD of Integrated Circuits and Systems}, year = {1992}, volume = {11}, number = {9}, pages = {1074-1085}, url = {http://dblp.uni-trier.de/db/journals/tcad/tcad11.html#HagenK92} }
Mohar, B.	The Laplacian spectrum of graphs [BibTeX]	1991	Graph Theory, Combinatorics, and Applications Vol. 2, pp. 871-898	article
BibTeX: @article{mohar1991lsg, author = {Mohar, B.}, title = {The Laplacian spectrum of graphs}, journal = {Graph Theory, Combinatorics, and Applications}, publisher = {New York: Wiley}, year = {1991}, volume = {2}, pages = {871--898} }
Pothen, A., Simon, H. & Liou, K.	Partitioning Sparse Matrices with Eigenvectors of Graphs [BibTeX]	1990	SIAM J. MATRIX ANAL. APPLIC. Vol. 11(3), pp. 430-452	article	URL
BibTeX: @article{partitioning89, author = {Pothen, A. and Simon, H.D. and Liou, K.P.}, title = {Partitioning Sparse Matrices with Eigenvectors of Graphs}, journal = {SIAM J. MATRIX ANAL. APPLIC.}, year = {1990}, volume = {11}, number = {3}, pages = {430--452}, url = {http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19970011963_1997016998.pdf } }
Frank, O.	Random sampling and social networks: a survey of various approaches [BibTeX]	1988	Math. Sci. Humaines Vol. 104, pp. 19-33	article
BibTeX: @article{frank1988rsa, author = {Frank, O.}, title = {Random sampling and social networks: a survey of various approaches}, journal = {Math. Sci. Humaines}, year = {1988}, volume = {104}, pages = {19--33} }
Johnson, D.S. & Papadimitriou, C.H.	On generating all maximal independent sets [BibTeX]	1988	Inf. Process. Lett. Vol. 27(3), pp. 119-123	article	DOI URL
BibTeX: @article{46243, author = {Johnson, David S. and Papadimitriou, Christos H.}, title = {On generating all maximal independent sets}, journal = {Inf. Process. Lett.}, publisher = {Elsevier North-Holland, Inc.}, year = {1988}, volume = {27}, number = {3}, pages = {119--123}, url = {http://portal.acm.org/citation.cfm?id=46241.46243}, doi = {http://dx.doi.org/10.1016/0020-0190(88)90065-8} }
Seidman, S.B.	Network structure and minimum degree [Abstract] [BibTeX]	1983	Social Networks Vol. 5(3), pp. 269 - 287	article	DOI URL
Abstract: Social network researchers have long sought measures of network cohesion, Density has often been used for this purpose, despite its generally admitted deficiencies. An approach to network cohesion is proposed that is based on minimum degree and which produces a sequence of subgraphs of gradually increasing cohesion. The approach also associates with any network measures of local density which promise to be useful both in characterizing network structures and in comparing networks.
BibTeX: @article{seidman1983network, author = {Seidman, Stephen B.}, title = {Network structure and minimum degree}, journal = {Social Networks}, year = {1983}, volume = {5}, number = {3}, pages = {269 - 287}, url = {http://www.sciencedirect.com/science/article/pii/037887338390028X}, doi = {http://dx.doi.org/10.1016/0378-8733(83)90028-X} }
Karonski, M.	A review of random graphs [BibTeX]	1982	Journal of Graph Theory Vol. 6(4)	article
BibTeX: @article{karonski1982rrg, author = {Karonski, M.}, title = {A review of random graphs}, journal = {Journal of Graph Theory}, publisher = {Wiley Subscription Services, Inc., A Wiley Company New York}, year = {1982}, volume = {6}, number = {4} }
Bollobas, B.	The diameter of random graphs [BibTeX]	1981	Transactions of the American Mathematical Society, pp. 41-52	article
BibTeX: @article{bollobas1981drg, author = {Bollobas, B.}, title = {The diameter of random graphs}, journal = {Transactions of the American Mathematical Society}, publisher = {American Mathematical Society}, year = {1981}, pages = {41--52} }
Freeman, L.C.	A Set of Measures of Centrality Based on Betweenness [Abstract] [BibTeX]	1977	Sociometry Vol. 40(1), pp. 35-41	article	URL
Abstract: A Family of new measures of point and graph centrality based on early intuitions of Bavelas (1948) is introduced. These measures define centrality in terms of the degree to which a point falls on the shortest path between others and therefore has a potential for control of communication. They may be used to index centrality in any large or small network of symmetrical relations, whether connected or unconnected.
BibTeX: @article{citeulike:1025135, author = {Freeman, Linton C.}, title = {A Set of Measures of Centrality Based on Betweenness}, journal = {Sociometry}, publisher = {American Sociological Association}, year = {1977}, volume = {40}, number = {1}, pages = {35--41}, url = {http://links.jstor.org/sici?sici=0038-04318197703940A1C35AASOMOCE2.0.COB2-H} }
Fiedler, M.	A property of eigenvectors of nonnegative symmetric matrices and its application to graph theory [BibTeX]	1975	Czechoslovak Mathematical Journal Vol. 25(100), pp. 619-633	article
BibTeX: @article{fiedler1975pen, author = {Fiedler, M.}, title = {A property of eigenvectors of nonnegative symmetric matrices and its application to graph theory}, journal = {Czechoslovak Mathematical Journal}, year = {1975}, volume = {25}, number = {100}, pages = {619--633} }
Donath, W. & Hoffman, A.	Lower bounds for the partitioning of graphs [BibTeX]	1973	IBM Journal of Research and Development Vol. 17(5), pp. 420-425	article
BibTeX: @article{donath1973lbp, author = {Donath, W.E. and Hoffman, A.J.}, title = {Lower bounds for the partitioning of graphs}, journal = {IBM Journal of Research and Development}, year = {1973}, volume = {17}, number = {5}, pages = {420--425} }

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