about
A small world of weak ties provides optimal global integration of self-similar modules in functional brain networksOrganization of excitable dynamics in hierarchical biological networks.Brain networks maintain a scale-free organization across consciousness, anesthesia, and recovery: evidence for adaptive reconfigurationDisrupted modularity and local connectivity of brain functional networks in childhood-onset schizophrenia.The evolutionary dynamics of protein-protein interaction networks inferred from the reconstruction of ancient networks.Extracting the globally and locally adaptive backbone of complex networks.Topological Vulnerability Evaluation Model Based on Fractal Dimension of Complex NetworksPower-Hop: A Pervasive Observation for Real Complex Networks.From time series to complex networks: the visibility graphCore-periphery disparity in fractal behavior of complex networks.Efficient embedding of complex networks to hyperbolic space via their Laplacian.Complete trails of coauthorship network evolution.A scalable self-priming fractal branching microchannel net chip for digital PCR.The conundrum of functional brain networks: small-world efficiency or fractal modularity.Pattern discovery in breast cancer specific protein interaction network.Tracing the evolution of physics on the backbone of citation networks.Link-disorder fluctuation effects on synchronization in random networks.Self-affine fractals embedded in spectra of complex networks.Diversity and critical behavior in prisoner's dilemma game.Self-attracting walk on heterogeneous networks.Overlapping-box-covering method for the fractal dimension of complex networks.Topological properties and fractal analysis of a recurrence network constructed from fractional Brownian motions.Spectral coarse graining for random walks in bipartite networks.Box-covering algorithm for fractal dimension of complex networks.Random sequential renormalization and agglomerative percolation in networks: application to Erdös-Rényi and scale-free graphs.Multifractality of complex networks.Multiorder boundaries among discrete domains: relative fractal dimension and others.Scale-free models for the structure of business firm networks.Renormalization flows in complex networks.Accuracy of the ball-covering approach for fractal dimensions of complex networks and a rank-driven algorithm.Network quotients: structural skeletons of complex systems.Complex networks renormalization: flows and fixed points.A box-covering algorithm for fractal scaling in scale-free networks.Fractality in complex networks: critical and supercritical skeletons.Emergence of fractal scaling in complex networks.Spectral Coarse Graining of Complex NetworksResilience of and recovery strategies for weighted networksExtracting Backbones from Weighted Complex Networks with Incomplete Information
P2860
Q33352974-9E4DE98C-C816-4E66-92E7-47DB2F01E9F5Q33372128-EDD0C82B-29D8-4114-973D-04D811D85B91Q34233621-457010AE-4C0E-4166-81A8-92950F5CF10EQ34245577-D5A7B270-B4B9-4A91-8410-850306240EF6Q34634078-61A96C64-856A-42E8-A8CB-E5A1B322B191Q35189574-CC95B764-214A-4756-AC65-ADF8460B5885Q35889937-A3C40E20-7BCC-4AE1-8CD6-94B26E99C5ADQ35956099-932F6B94-1F48-4BF0-990F-786B6797CBC8Q36516135-D4EBE7AC-8473-4927-8A3A-F56C2A554BA2Q38468890-151F9C5B-C2DB-4733-B6F2-397ADBA3F9E0Q39573399-F19E334C-9902-445E-A5C1-5F329F1A7837Q39952185-4FA656A3-FA04-473A-A807-DCD18B0C49AAQ40461891-0BBF1F7C-D831-469C-91FD-55C3173F70CEQ42150555-24FD3F56-F3E0-4AF5-B14D-D5FE18D1144DQ42615125-994E330A-A59C-4194-A357-67F26FABB122Q43989805-D7E68B6E-1B67-4994-B4E0-AC54BB8E9AE2Q45969332-ECFEFDA5-23D4-47C1-BBFB-5B81F5761863Q47669008-68C5B1AA-0A82-4959-A63F-7B80102007DCQ50620839-07AD4A04-B2EF-4FC5-B60A-49748410A173Q50642782-61CFD0B5-9389-459F-8D5B-0CC8966A6EDCQ51087190-90A94DBE-B44D-45B7-A87E-134B2FCAB8DBQ51094224-2F7BBA48-97FF-45BF-ABDD-7FE91986EB3CQ51235747-2292ABDA-90D5-46FF-B1FD-27F5139A58EFQ51318920-B38E725D-E3BC-447D-8564-16F707469333Q51430766-5E99C851-2DC3-4C9C-B6C2-A934DB87C7A8Q51503414-B15E6DE3-B02F-4B69-BDC8-019AC8A88CBDQ51706910-982E0129-DCE4-4080-AE6F-1C5EEAA8A415Q51707879-B78EBE55-7B8F-4EA1-A9C2-E50D6939A0F8Q51837387-75FCAD3C-22C7-4C0C-9767-739953B47356Q51863674-31D875F7-5DBF-4AD3-B8A3-B7E84D9B06DBQ51863682-C7A794E8-1D39-4D3D-9219-2103EC953007Q51866788-57FF1D3F-AD96-4628-AEBC-80AF5D82AE35Q51910973-F7476B7E-874A-4B52-A96F-9DE96F3813DDQ51920261-B203BAC8-030D-4B3F-B5D8-72A66CFF9967Q52883084-BAEC5D68-2D42-46C5-909C-161E7DA6FFE1Q57990768-43CBF048-E092-4F8D-9A90-511EDE0E9AABQ58752224-88B17E8C-11FD-4427-8C54-D776DF0197F8Q59101550-EC258C82-EB9D-4B14-B657-3A3FEB5A2520
P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh
2006年學術文章
@zh-hant
name
Skeleton and fractal scaling in complex networks.
@en
Skeleton and fractal scaling in complex networks.
@nl
type
label
Skeleton and fractal scaling in complex networks.
@en
Skeleton and fractal scaling in complex networks.
@nl
prefLabel
Skeleton and fractal scaling in complex networks.
@en
Skeleton and fractal scaling in complex networks.
@nl
P2093
P1476
Skeleton and fractal scaling in complex networks.
@en
P2093
P304
P356
10.1103/PHYSREVLETT.96.018701
P407
P577
2006-01-11T00:00:00Z
P5875
P698
P818
cond-mat/0508332