1. School of Computer Science and Technology, Zhejiang University of Technology, Hangzhou 310023, China; 2. Department of Computer Science and Engineering, WenZhou University, Wenzhou 325035, China
Abstract:Cooperation and competition drive the dynamic evolution of the natural social and ecological system, and the interaction of these mechanisms can have different effects on multiple networks. Based on the basis of eigenvector centrality, we propose a cooperation-competition model based on the network of networks, to give a definition that the network is a kind of competition between the external relations, but the cooperation within the relationship. To reveal the competition characteristics, we classify the cooperation strategies and competitive strategies to do some research on the influence if different cooperation strategies among module network will bring the question of resource distribution to cluster network, even the entire network, and then find out the combination of the nodes with greater importance bringing.
[1] Newman M E J. Networks:an Introduction[M].北京电子工业出版社, 2014. [2] 李明, 汪秉宏. 多重网络的结构与鲁棒性[J].复杂系统与复杂性科学, 2015, 12(2): 32-37. Li Ming, Wang Binghong, The structure and robustness of multilayer networks[J].Complex Systems and Complexity Science,, 2015, 12(2): 32-37. [3] Fortunato S. Community detection in graphs[J].Physics Reports, 2010, 486(3-5):75-174. [4] Gao J, Buldyrev S V, Havlin S, et al. Robustness of a network of networks[J].Physical Review Letters, 2011, 107(19):346-356. [5] Arenas A, Díaz-Guilera A, Kurths J, et al. Synchronization in complex networks[J].Phys Rep, 2008,469, 93-153. [6] Nicosia V, Bianconi G, Latora V, et al. Growing multiplex networks[J].Physical Review Letters, 2013, 111(5):1-6. [7] 吴昊, 杨梅英, 陈良猷. 合作竞争博弈中的复杂性与演化均衡的稳定性分析[J].系统工程理论与实践, 2004, 24(2):90-94. Wu Hao, Yang Meiying, Chen Liangyou. An analyzes on complexity and evolutionary stability in coopetition games[J].System Engineering Theory and Practice, 2004, 24(2):90-94. [8] Granell C, Gómez S, Arenas A. Competing spreading processes on multiplex networks: awareness and epidemics[J].Physical Review E, 2014, 90(1): 012808. [9] Gómez-Gardenes J, Reinares I, Arenas A, et al. Evolution of cooperation in multiplex networks[J].Scientific reports, 2012, 2. [10] Wang Z, Szolnoki A, Perc M. Interdependent network reciprocity in evolutionary games[DB/OL].[2016-07-07].http://dx.doi.org/1038/srepo1183. [11] Cygler J, Co-opetition in network relations between businesses[J].Organization and Management,2010,139(1) : 59-71. [12] Bianconi G. Statistical mechanics of multiplex networks: entropy and overlap.[J].Physical Review E, 2013, 87(6):062806. [13] Canright G S, Engo-Monson K. Spreading on networks: a topographic view[J].Complexus, 2006,3,131-146. [14] Radicchi F, Arenas A. Abrupt transition in the structural formation of interconnected networks[J].Nature Physics, 2013, 9(11): 717-720. [15] Qi X, Fuller E, Wu Q, et al. Laplacian centrality: a new centrality measure for weighted networks[J].Information Sciences, 2012, 194: 240-253. [16] Solá L, Romance M, Criado R, et al. Eigenvector centrality of nodes in multiplex networks[J].Chaos: an Interdisciplinary Journal of Nonlinear Science, 2013, 23(3): 033131. [17] Aguirre J, Papo D, Buldú J M. Successful strategies for competing networks[J].Nature Physics, 2013, 9(4): 230-234. [18] Marcus R A. Brief comments on perturbation theory of a nonsymmetric matrix: the GF matrix[J].The Journal of Physical Chemistry A, 2001, 105(12): 2612-2616. [19] Watts D J, Strogatz S H. Collective dynamics of ”small-world” nettworks[J].Nature, 1998, 393(6684):440-2. [20] Pastor-Satorras R, Vespignani A. Epidemic spreading in scale-free networks.[J].Physical Review Letters, 2001, 86(14):3200-3. [21] Fang J Q, Liu Q H, Tang M, et al. Network science faces the challenge and opportunity:exploring “network of networks” and its unified theoretical framework[R].The 11th China Forum on Network Science,Shanghai,2015.
