摘要We propose investigating the node strength connectivity correlation by a resource-allocation method and the traditional multiple edge method, respectively. A rough analysis suggests that the resource-allocation node strength connectivity correlation is always negative, which is different from the connectivity correlation of the traditional multiple edge node strength (it can show either positive, negative or no correlation). As examples, empirical investigation results for two real world cooperation-competition networks (the 2004 Athens Olympic Games network and the mixed drink network) are presented. We believe that the resource-allocation node strength connectivity correlation can serve as a description of the relative crackajack distribution, which is a complementarity of the traditional multiple edge one.
Abstract:We propose investigating the node strength connectivity correlation by a resource-allocation method and the traditional multiple edge method, respectively. A rough analysis suggests that the resource-allocation node strength connectivity correlation is always negative, which is different from the connectivity correlation of the traditional multiple edge node strength (it can show either positive, negative or no correlation). As examples, empirical investigation results for two real world cooperation-competition networks (the 2004 Athens Olympic Games network and the mixed drink network) are presented. We believe that the resource-allocation node strength connectivity correlation can serve as a description of the relative crackajack distribution, which is a complementarity of the traditional multiple edge one.
(Other topics in areas of applied and interdisciplinary physics)
引用本文:
SHI Jian-Jun;WANG Yong-Li;HE Da-Ren. An Investigation into Node Strength Connectivity Correlation[J]. 中国物理快报, 2009, 26(7): 78902-078902.
SHI Jian-Jun, WANG Yong-Li, HE Da-Ren. An Investigation into Node Strength Connectivity Correlation. Chin. Phys. Lett., 2009, 26(7): 78902-078902.
[1] Albert R and Baraba'si A L 2002 Rev. Mod. Phys. 74 47 [2] Pastor-Satorras R, Vazquez A and Vespignani A 2001 Phys. Rev. Lett. 87 258701 [3] Eguiluz V M, Chialvo D R, Cecchi G A et al 2005 Phys. Rev. Lett. 94 018102 [4] Chen Y Z, Fu C H, Chang H, Li N and He D R 2008 Chin.Phys. B 17 3580 [5] Newman M E J 2002 Phys. Rev. Lett. 89 208701 [6] Newman M E J 2003 Phys. Rev. E 67 026126 [7] Zhou T, Ren J, Medo M and Zhang Y C 2007 Phys. Rev.E 76 046115 [8] Zhang P P, Chen K, He Y et al 2006 Physica A 360 599 [9] Chang H, Su B B, Zhou Y P and He D R 2007 Phsica A 383 687 [10] Zhou T, Wang B-H, Jin Y D et al 2007 Int. J. Mod.Phys. C 18 297 [11] Yang J, Liu L, Xie W, Chen G and Zhuang D 2007 Physica A 382 704 [12] Fu C H, Zhang Z P, Chang H et al 2008 Physica A 387 1411 [13] Fu C H, Xu X L, Liu A F et al 2008 Chin. Phys.Lett. 25 4181 [14] Newman M E J 2004 Phys. Rev. E 70 056131 [15] Shi J J, Wang Y L, Fu C H and He D R 2009 PhysicaA (submitted)
2009, Vol. 26 
