地震活动的网络拓扑结构和网络动力学行为
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摘要
为了研究地震活动的时空复杂性,采用地震活动数据构造了一种加权复杂网络模型,并研究了网络的拓扑和边权结构。结果显示,地震加权网络的节点强度分布及边权分布均具有幂律分布特征,网络的含权团簇系数和平均最近邻度显示地震加权网络具有伴随着边权重-拓扑相关性的分等级的组织结构,团簇熵的计算结果表明,大地震的网络拓扑结构更有序。地震加权网络的动力学演化揭示了在大地震前后一段时期的网络拓扑结构表现出明显的异常。这些结果表明,地震活动显现出一种内在相互作用的网络动力学行为。
To study the spatial-temporal complexity of seismicity, we construct weighted complex networks from seismic data and investigate the structural properties of topology and weights of networks. The results show that both strength and weight distributions behave as a power law. The weighted clustering coefficient and the weighted average nearest-neighbors degree show that earthquake networks possess hierarchical organization properties associated with the weights-topology correlations. The entropy of clustering shows the network topology of a larger earthquake is more ordered. The dynamical evolution of weighed earthquake networks reveals the network topology in period before and after a large earthquake shows obvious abnormalities. These results suggest that seismicity shows an network dynamic behavior of the intrinsic interactions.
To study the spatial-temporal complexity of seismicity, we construct weighted complex networks from seismic data and investigate the structural properties of topology and weights of networks. The results show that both strength and weight distributions behave as a power law. The weighted clustering coefficient and the weighted average nearest-neighbors degree show that earthquake networks possess hierarchical organization properties associated with the weights-topology correlations. The entropy of clustering shows the network topology of a larger earthquake is more ordered. The dynamical evolution of weighed earthquake networks reveals the network topology in period before and after a large earthquake shows obvious abnormalities. These results suggest that seismicity shows an network dynamic behavior of the intrinsic interactions.
引文
Abe S.and Okamoto Y.,2001.Nonextensive Statistical Mechhnics and Its Applications(Springer-Verlag press,Heidelberg,2001).
Abe S.and Suzuki N.,2004a.Scale-free network of earthquakes.Europhys.Lett.,65:581—584.
Abe S.and Suzuki N.,2004b.Small-world structure of earthquake network.Physica A,337:357—359.
Abe S.and Suzuki N.,2005.Scale-invariant statistics of period in directed earthquake network.Eur.Phys.J.B.,44:115—117.
Abe S.and Suzuki N.,2006a.Complex-network description of seismicity.Nonlin.Processes Geophys.,13:145—153.
Abe S.and Suzuki N.,2006b.Dynamical evolution of clustering in complex network of earthquakes.e-print arXiv:physics/0612058.
Abe S.and Suzuki N.,2006c.Complex earthquake networks:Hierarchical organization and assortative mixing.Phys.Rev.E.,74:026113.
Albert R.and Barabási A.-L.,2002.Statistical mechanics of complex networks.Rev.Mod.Phys.,74:47—50.
Almaas E.,Kovacs B.,Viscek T.,Oltval Z.N.and Barabási A.L.,2004.Global organization of metabolic fluxes in the bacterium,Escherichia coli.Nature(London),427:839—843.
Barabási A.-L.and Albert R.,1999.Emergence of scaling in Random networks.Science,286:509—511.
Barrat A.,Barthélemy M.and Vespignani A.,2004b.Modeling the evolution of weighted networks.Phys.Rev.E.,70:066149.
Barrat A.,Barthélemy M.,Pastor-Satorras R.and Vespignani A.,2004a.The architecture of complex weighted networks.Proc.Natl.Acad.Sci.U.S.A.,101:3747—3751.
Barthélemy M.,Barrat A.,Pastor-Satorras R.and Vespignani A.,2005.Characterization and modeling of weighted networks.Physica A,346:34—39.
Gutenberg B.and Richter C.F.,1944.Frequency of earthquakes in California.Bull.Seismol.Soc.Am.,34:185—193.
Lin M.,Zhao X.and Chen T.,2004.A modified earthquake model of self-organized criticality on small world networks.Commun.Theor.Phys.,41:557—561.
Newman M.E.J.,2004.Analysis of weighted networks.e-print arXiv:condmat/0407503.
Omori F.,1894.On the after-shocks of earthquakes.J.Coll.Sci.Imp.Univ.Tokyo,7:111—119.
Steeples D.W.and Steeples D.D.,1996.Far-field aftershocks of the1906earthquake.Bull.Seismol.Soc.Am.,86:921—934.
Watts D.J.and Strogatz S.H.,1998.Collective dynamics of‘small-world’networks.Nature,393:440—442.
Abe S.and Suzuki N.,2004a.Scale-free network of earthquakes.Europhys.Lett.,65:581—584.
Abe S.and Suzuki N.,2004b.Small-world structure of earthquake network.Physica A,337:357—359.
Abe S.and Suzuki N.,2005.Scale-invariant statistics of period in directed earthquake network.Eur.Phys.J.B.,44:115—117.
Abe S.and Suzuki N.,2006a.Complex-network description of seismicity.Nonlin.Processes Geophys.,13:145—153.
Abe S.and Suzuki N.,2006b.Dynamical evolution of clustering in complex network of earthquakes.e-print arXiv:physics/0612058.
Abe S.and Suzuki N.,2006c.Complex earthquake networks:Hierarchical organization and assortative mixing.Phys.Rev.E.,74:026113.
Albert R.and Barabási A.-L.,2002.Statistical mechanics of complex networks.Rev.Mod.Phys.,74:47—50.
Almaas E.,Kovacs B.,Viscek T.,Oltval Z.N.and Barabási A.L.,2004.Global organization of metabolic fluxes in the bacterium,Escherichia coli.Nature(London),427:839—843.
Barabási A.-L.and Albert R.,1999.Emergence of scaling in Random networks.Science,286:509—511.
Barrat A.,Barthélemy M.and Vespignani A.,2004b.Modeling the evolution of weighted networks.Phys.Rev.E.,70:066149.
Barrat A.,Barthélemy M.,Pastor-Satorras R.and Vespignani A.,2004a.The architecture of complex weighted networks.Proc.Natl.Acad.Sci.U.S.A.,101:3747—3751.
Barthélemy M.,Barrat A.,Pastor-Satorras R.and Vespignani A.,2005.Characterization and modeling of weighted networks.Physica A,346:34—39.
Gutenberg B.and Richter C.F.,1944.Frequency of earthquakes in California.Bull.Seismol.Soc.Am.,34:185—193.
Lin M.,Zhao X.and Chen T.,2004.A modified earthquake model of self-organized criticality on small world networks.Commun.Theor.Phys.,41:557—561.
Newman M.E.J.,2004.Analysis of weighted networks.e-print arXiv:condmat/0407503.
Omori F.,1894.On the after-shocks of earthquakes.J.Coll.Sci.Imp.Univ.Tokyo,7:111—119.
Steeples D.W.and Steeples D.D.,1996.Far-field aftershocks of the1906earthquake.Bull.Seismol.Soc.Am.,86:921—934.
Watts D.J.and Strogatz S.H.,1998.Collective dynamics of‘small-world’networks.Nature,393:440—442.
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