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Complexity
An interdisciplinary forum for complexity research
Image Credit: Andy Lamb, CC-BY
+ More About This ChannelMost of today’s global challenges, from online misinformation spreading to Ebola outbreaks, involve such a vast number of interacting players that reductionism delivers little insight. Systems are often non-linear, exhibiting complexity in temporal and spatial domains over large scales, which is a challenge to predictability and comprehension. Strategies must be found to look at the problem as a whole, in all its complexity. Representing the associated data as a complex network, in which nodes and connections between them form complicated patterns, is one such strategy. Network science provides novel tools for analyzing, visualizing and modeling this data thanks to the cross-fertilization of fields as diverse as statistical physics, algebraic topology and machine learning, among the others.
This Channel brings together all aspects of complexity research and includes interdisciplinary topics from network theory to applications in neuroscience and the social sciences.
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Image credit
Andy Lamb, CC-BY
Image credit
Andy Lamb, CC-BY
Image credit
Andy Lamb, CC-BY
Channel Items
Showing 111 – 120 of 313 articles
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The University of Vermont Complex Systems Center Fellowships | The University of Vermont Complex Systems Center
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NetSciX 2020 Call for Submissions | NetSciX 2020
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Scientific Reports Reconstructing commuters network using machine learning and urban indicators
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socialcontactdata.org Social contact data
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Science Advances Cultural selection shapes network structure
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PLOS Computational Biology FAMoS: A Flexible and dynamic Algorithm for Model Selection to analyse complex systems dynamics
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PLOS Computational Biology Benchmarking network propagation methods for disease gene identification