References


[1] Konect-the koblenz network collection. Accessed on 9 September 2014.

[2] Lada A Adamic and Eytan Adar. Friends and neighbors on the web. Social Networks, 25(3):211–230, July 2003.

[3] Leslie C. Aiello and R. I. M. Dunbar. Neocortex size, group size, and the evolution of language. Current Anthropology, 34(2):184–193, April 1993.

[4] R. Albert, H. Jeong, and A.-L. Barab´asi. Error and attack tolerance of complex networks. Nature, 406(6794):378–382, July 2000.

[5] R´eka Albert and Albert-L´aszl´o Barab´asi. Statistical mechanics of complex networks. Reviews of Modern Physics, 74(1):47–97, January 2002.

[6] R´eka Albert, Hawoong Jeong, and Albert-L´aszl´o Barab´asi. Internet: Diameter of the world-wide web. Nature, 401(6749):130–131, September 1999.

[7] L. A. N. Amaral, A. Scala, M. Barthlmy, and H. E. Stanley. Classes of small-world networks. Proceedings of the National Academy of Sciences, 97(21):11149–11152, October 2000.

[8] A. L Barab´asi, H Jeong, Z Nda, E Ravasz, A Schubert, and T Vicsek. Evolution of the social network of scientific collaborations. Physica A: Statistical Mechanics and its Applications, 311(34):590–614, August 2002.

[9] Albert-L´aszl´o Barab´asi and R´eka Albert. Emergence of scaling in random networks. Science, 286(5439):509–512, October 1999.

[10] Yann Bramoull´e, Sergio Currarini, Matthew O. Jackson, Paolo Pin, and Brian W. Rogers. Homophily and long-run integration in social networks. Journal of Economic Theory, 147(5):1754–1786, September 2012.

[11] Reuven Cohen and Shlomo Havlin. Scale-free networks are ultrasmall. Physical Review Letters, 90(5):058701, February 2003.

[12] Chavdar Dangalchev. Generation models for scale-free networks. Physica A: Statistical Mechanics and its Applications, 338(34):659–671, July 2004.

[13] R. I. M. Dunbar. Coevolution of neocortical size, group size and language in humans. Be-havioral and Brain Sciences, 16(04):681–694, 1993.

[14] Trevor Fenner, Mark Levene, and George Loizou. A model for collaboration networks giving rise to a power-law distribution with an exponential cutoff. Social Networks, 29(1):70–80, January 2007.

[15] Leon Festinger, Kurt W. Back, and Stanley Schachter. Social Pressures in Informal Groups: A Study of Human Factors in Housing. Stanford University Press, January 1950.

[16] Mark S. Granovetter. The strength of weak ties. American Journal of Sociology, 78(6):1360–1380, May 1973.

[17] James Hendler, Nigel Shadbolt, Wendy Hall, Tim Berners-Lee, and Daniel Weitzner. Web science: An interdisciplinary approach to understanding the web. Communications of the ACM, 51(7):60–69, July 2008.

[18] Yun Huang, Cuihua Shen, and Noshir S. Contractor. Distance matters: Exploring proximity and homophily in virtual world networks. Decision Support Systems, 55(4):969–977, November 2013.

[19] Junseok Hwang, Jrn Altmann, and Kibae Kim. The structural evolution of the web 2.0 service network. Online Information Review, 33(6):1040–1057, November 2009.

[20] B. J. Kim, A. Trusina, P. Minnhagen, and K. Sneppen. Self organized scale-free networks from merging and regeneration. The European Physical Journal B - Condensed Matter and Complex Systems, 43(3):369–372, February 2005.

[21] Kibae Kim, J. Altmann, and Junseok Hwang. The impact of the subgroup structure on the evolution of networks: An economic model of network evolution. In INFOCOM IEEE Conference on Computer Communications Workshops, 2010, pages 1–9, March 2010.

[22] Kibae Kim, Jorn Altmann, and Junseok Hwang. An analysis of the openness of the web2.0 service network based on two sets of indices for measuring the impact of service ownership. In Proceedings of the 2011 44th Hawaii International Conference on System Sciences, HICSS’11, page 111, Washington, DC, USA, 2011. IEEE Computer Society.

[23] Lev Kuandykov and Maxim Sokolov. Impact of social neighborhood on diffusion of innovation s-curve. Decision Support Systems, 48(4):531–535, March 2010.

[24] Jure Leskovec, Lada A Adamic, and Bernardo A Huberman. The dynamics of viralmarketing. ACM Transactions on the Web (TWEB), 1:228–237, May 2007.

[25] Jing Liu, Hussein A. Abbass,Weicai Zhong, and Green David G. Local-global interaction and the emergence of scale-free networks with community structures. Artificial Life, 17(4):263–279, 2011.

[26] Miller McPherson, Lynn Smith-Lovin, and James M Cook. Birds of a feather: Homophily in social networks. Annual Review of Sociology, 27(1):415–444, August 2001.

[27] M. Newman. The structure and function of complex networks. SIAM Review, 45(2):167–256, January 2003.

[28] MEJ Newman. Power laws, pareto distributions and zipf’s law. Contemporary Physics, 46(5):323–351, 2005.

[29] Romualdo Pastor-Satorras and Alessandro Vespignani. Epidemic spreading in scale-free networks. Physical Review Letters, 86(14):3200–3203, April 2001.

[30] J. Putzke, K. Fischbach, D. Schoder, and P. A Gloor. The evolution of interaction networks in massively multiplayer online games. Journal of the Association for Information Systems, 11(2):2, 2010.

[31] Thomas C. Schelling. Micromotives and Macrobehavior. W. W. Norton & Company, New York, revised edition edition, October 2006.

[32] G. Smaragdakis, N. Laoutaris, V. Lekakis, A Bestavros, J.W. Byers, and M. Roussopoulos. Selfish overlay network creation and maintenance. IEEE/ACM Transactions on Networking, 19(6):1624–1637, December 2011.

[33] Yuhai Tu. How robust is the internet? Nature, 406(6794):353–354, July 2000.

[34] Sergi Valverde and Ricard V. Sol´e. Self-organization versus hierarchy in open-source social networks. Physical Review E, 76(4):046118, October 2007.

[35] Caroline S. Wagner and Loet Leydesdorff. Network structure, self-organization, and the growth of international collaboration in science. Research Policy, 34(10):1608–1618, December 2005.

[36] Fang Wang and Yaoru Sun. Self-organizing peer-to-peer social networks. Computational Intelligence, 24(3):213–233, August 2008.

[37] Xiaoming Wang and D. Loguinov. Understanding and modeling the internet topology: Economics and evolution perspective. IEEE/ACM Transactions on Networking, 18(1):257–270, February 2010.

[38] Fang Wu, Bernardo A. Huberman, Lada A. Adamic, and Joshua R. Tyler. Information flow in social groups. Physica A: Statistical Mechanics and its Applications, 337(12):327–335, June 2004.

[39] Soon-Hyung Yook, Hawoong Jeong, and Albert-L´aszl´o Barab´asi. Modeling the internet’s large-scale topology. Proceedings of the National Academy of Sciences, 99(21):13382–13386, October 2002.