about
Mathematical Formulation of Multilayer NetworksAnatomy and efficiency of urban multimodal mobilityMeasuring long-term impact based on network centrality: unraveling cinematic citationsPattern formation in multiplex networksMesoscopic structures reveal the network between the layers of multiplex data sets.Muxstep: an open-source C ++ multiplex HMM library for making inferences on multiple data types.How Structured Is the Entangled Bank? The Surprisingly Simple Organization of Multiplex Ecological Networks Leads to Increased Persistence and Resilience.Synchronized and mixed outbreaks of coupled recurrent epidemics.Robustness of interrelated traffic networks to cascading failures.PageRank versatility analysis of multilayer modality-based network for exploring the evolution of oil-water slug flowMultiplex networks of cortical and hippocampal neurons revealed at different timescalesStructural reducibility of multilayer networks.Ranking in interconnected multilayer networks reveals versatile nodes.Emergence of Multiplex Communities in Collaboration Networks.Multiplex PageRank.Epidemics in partially overlapped multiplex networks.Weighted multiplex networks.Critical cooperation range to improve spatial network robustness.Epidemic Model with Isolation in Multilayer Networks.The Role of Node Heterogeneity in the Coupled Spreading of Epidemics and AwarenessA random interacting network model for complex networks.A study of the temporal robustness of the growing global container-shipping network.Breathing synchronization in interconnected networks.Revealing the structure of the world airline networkPatterns of Twitter Behavior Among Networks of Cannabis Dispensaries in California.Growing multiplex networks with arbitrary number of layers.Network robustness of multiplex networks with interlayer degree correlations.Emergence of disassortative mixing from pruning nodes in growing scale-free networksNetwork structure beyond food webs: mapping non-trophic and trophic interactions on Chilean rocky shores.Extracting information from multiplex networks.Role of adjacency-matrix degeneracy in maximum-entropy-weighted network models.Selective impairment of hippocampus and posterior hub areas in Alzheimer's disease: an MEG-based multiplex network study.Systems medicine of inflammaging.Suppressed epidemics in multirelational networks.Metric projection for dynamic multiplex networks.Correlations between weights and overlap in ensembles of weighted multiplex networks.Multiplexity versus correlation: the role of local constraints in real multiplexes.Message passing theory for percolation models on multiplex networks with link overlap.Synchronization in networks with multiple interaction layers.Optimal percolation on multiplex networks.
P2860
Q21563918-6D9F63CA-A397-4B36-A46B-382B87A3C7EAQ28652695-36F75DA6-9D13-4411-95EE-FD2AFBFEA994Q28654880-14DC8904-CD12-41C0-B3B2-7E9CC13B7671Q30653142-AE1262C1-F9C3-406D-9855-B1BB2043BB91Q31022981-D27AD628-E628-406C-B69E-949508B16EF4Q31092304-2298C82E-D93F-4A80-A9D8-F1DBA58E0AD2Q31119341-385FD47B-2852-4F2B-A6C7-77C7AE95EA3CQ33729215-0B47BA74-DE25-4E14-87BF-A6FD45E4083DQ33794765-25BB2CE3-E373-450C-8E79-39D6CD83ECE4Q33905924-CC80C13A-6269-49ED-902F-2501AB35AF6DQ34455404-0483530A-6024-443D-8623-DAB1E3E9C854Q34473259-100104B1-A115-49BD-A274-1D81E2E8E41DQ34473264-1D77423D-9637-40F0-B001-4FE5071D953EQ34510975-2874B417-EDA9-4D86-98F2-A80C72B11B5FQ35036294-5517BB45-151B-45CF-8F78-03541C420049Q35121659-F28856C2-13D0-46F0-9463-B3758E7335B0Q35183081-490935C3-4B3A-4BF6-AF9A-037A1AA39C4CQ35582680-20D9B426-837E-432C-A67A-19C21BE9E923Q35852001-658B2EB6-56BD-4ECE-A210-C096DC6949F3Q36102639-FCC86259-C981-4B29-B207-23927D1816BFQ36364118-AD416C2A-998D-434F-826C-66E68847180BQ37318997-420860E0-EF7F-40E9-8312-7990C1EBA9B2Q37330956-AF30B536-B3FA-466B-BB24-688EC81B0FA9Q38396536-EF381F35-574B-4A59-868A-E4E0576EAE59Q38693941-A441A084-2CFC-4AE0-9E38-1AAFF94D762FQ38921039-537DE658-5979-4630-9D52-200811A6B134Q39264974-E6F30A5C-D421-4AAA-A26E-29B0245B72ACQ39272137-410F295E-D929-40B2-AAAA-0A08DB796B83Q39280023-511EF252-358C-4CD5-A00E-EB501BAB5835Q39638426-34A291DA-AAAD-4B93-95F4-6A60F106B554Q40227915-655290E9-3BF7-4465-8DD2-7FBC7F2DD817Q40277605-E1BEB12D-F179-4552-BF05-28953CAC05CDQ40607565-4641E55D-1C8B-44B4-BCAB-4D7AF4A4DA8AQ40993518-BD8170EB-6A9C-446B-8455-7CE20B4AFC9FQ41013966-B8E57093-98B6-461E-825E-8210F4364F6AQ41536941-E5F78A2C-C47A-4F3F-8CDC-FA07A3F259E9Q41851523-3A59BACF-119A-4E9C-8606-49FFD537D304Q42080305-46E9A5EB-373C-483F-B874-A4ABCB60F651Q42328214-5C54A886-5E6D-4A82-A485-D172957661F6Q47112036-5F898E79-2198-4D0A-973E-C5AAB9217CD4
P2860
description
2013 nî lūn-bûn
@nan
2013 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Emergence of network features from multiplexity.
@ast
Emergence of network features from multiplexity.
@en
Emergence of network features from multiplexity.
@nl
type
label
Emergence of network features from multiplexity.
@ast
Emergence of network features from multiplexity.
@en
Emergence of network features from multiplexity.
@nl
prefLabel
Emergence of network features from multiplexity.
@ast
Emergence of network features from multiplexity.
@en
Emergence of network features from multiplexity.
@nl
P2093
P2860
P50
P356
P1433
P1476
Emergence of network features from multiplexity
@en
P2093
Francisco del Pozo
Miguel Romance
Stefano Boccaletti
P2860
P2888
P356
10.1038/SREP01344
P407
P577
2013-01-01T00:00:00Z
P5875
P6179
1036760492