about
Climate dynamics: a network-based approach for the analysis of global precipitationData-based reconstruction of complex geospatial networks, nodal positioning and detection of hidden nodesDisentangling different types of El Niño episodes by evolving climate network analysis.Unraveling spurious properties of interaction networks with tailored random networks.Very early warning of next El NiñoPrediction of extreme floods in the eastern Central Andes based on a complex networks approach.Multiplex PageRank.The effect of geography and citizen behavior on motor vehicle deaths in the United States.Local difference measures between complex networks for dynamical system model evaluation.Unified functional network and nonlinear time series analysis for complex systems science: The pyunicorn package.Detecting Causality by Combined Use of Multiple Methods: Climate and Brain Examples.Identifying causal gateways and mediators in complex spatio-temporal systems.Recovery of Interdependent Networks.Spatial network surrogates for disentangling complex system structure from spatial embedding of nodes.Percolation framework to describe El Niño conditions.Persistent homology of time-dependent functional networks constructed from coupled time series.Edge anisotropy and the geometric perspective on flow networks.Climate network stability measures of El Niño variability.Relating Granger causality to long-term causal effects.Complex network based techniques to identify extreme events and (sudden) transitions in spatio-temporal systems.Assessing the direction of climate interactions by means of complex networks and information theoretic tools.Network analysis reveals strongly localized impacts of El Niño.Influence of autocorrelation on the topology of the climate network.Detecting causality in policy diffusion processesUnravelling the community structure of the climate system by using lags and symbolic time-series analysis.A perturbation-theoretic approach to Lagrangian flow networks.Networks from flows--from dynamics to topology.Stability of climate networks with time.Integrating networks and comparative genomics reveals retroelement proliferation dynamics in hominid genomes.Constructing regional climate networks in the Amazonia during recent drought events.Multivariate recurrence network analysis for characterizing horizontal oil-water two-phase flow.Inferring long memory processes in the climate network via ordinal pattern analysis.Reducing the bias of causality measures.Surrogate-assisted identification of influences of network construction on evolving weighted functional networks.On system behaviour using complex networks of a compression algorithm.Mapping and discrimination of networks in the complexity-entropy plane.Reconstructing complex networks without time series.Analytical framework for recurrence network analysis of time series.A Gaussian graphical model approach to climate networks.From brain to earth and climate systems: small-world interaction networks or not?
P2860
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description
im August 2009 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в серпні 2009
@uk
name
The backbone of the climate network
@en
The backbone of the climate network
@nl
type
label
The backbone of the climate network
@en
The backbone of the climate network
@nl
prefLabel
The backbone of the climate network
@en
The backbone of the climate network
@nl
P356
P1433
P1476
The backbone of the climate network
@en
P2093
J. F. Donges
P356
10.1209/0295-5075/87/48007
P577
2009-08-01T00:00:00Z