Complex Networks
Fortunato, Santo.
Complex Networks Results of the 2009 International Workshop on Complex Networks (CompleNet 2009) / [electronic resource] : edited by Santo Fortunato, Giuseppe Mangioni, Ronaldo Menezes, Vincenzo Nicosia. - XVII, 225 p. online resource. - Studies in Computational Intelligence, 207 1860-949X ; . - Studies in Computational Intelligence, 207 .
Session 1: Analysis of Real Networks -- Dynamics and Evolution of the International Trade Network -- Small World Behavior of the Planetary Active Volcanoes Network: Preliminary Results -- Correlation Patterns in Gene Expressions along the Cell Cycle of Yeast -- Session 2: Community Structure -- Detecting and Characterizing the Modular Structure of the Yeast Transcription Network -- Finding Overlapping Communities Using Disjoint Community Detection Algorithms -- Discovering Community Structure on Large Networks Using a Grid Computing Environment -- Finding Community Structure Based on Subgraph Similarity -- Session 3: Network Modeling -- Structural Trends in Network Ensembles -- Generalized Attachment Models for the Genesis of Graphs with High Clustering Coefficient -- Modeling Highway Networks with Path-Geographical Transformations -- Session 4: Network Dynamics -- Simplicial Complex of Opinions on Scale-Free Networks -- An Axiomatic Foundation for Epidemics on Complex Networks -- Analytical Approach to Bond Percolation on Clustered Networks -- Session 5: Applications -- Order-Wise Correlation Dynamics in Text Data -- Using Time Dependent Link Reduction to Improve the Efficiency of Topic Prediction in Co-Authorship Graphs -- Fast Similarity Search in Small-World Networks -- Detection of Packet Traffic Anomalous Behaviour via Information Entropy -- Identification of Social Tension in Organizational Networks.
We live in a networked world. People are getting more and more interconnected through the new information and communication technologies, like mobile phones and the Internet. The function of cells can be understood via networks of interacting proteins. Ecosystems can be described through networks of taxonomic relationships between species. The network representation has proved to be a powerful tool to understand the structure and the dynamics of complex systems. Since the pioneering discovery of the scale-free property of the World Wide Web by Albert, Jeong and Barabási, the study of complex networks has become the leading discipline in complexity science. This volume is intended to bring to the attention of the scientific community recent advances in complex networks. It covers significant aspects of networks' structure and dynamics, both from the analytical and the empirical point of view. The works of this collection are contributed by a truly interdisciplinary community of scientists, from physicists to mathematicians, from computer scientists to engineers and economists.
9783642012068
10.1007/978-3-642-01206-8 doi
Engineering.
Artificial intelligence.
Differentiable dynamical systems.
Physics.
Engineering mathematics.
Vibration.
Telecommunication.
Engineering.
Appl.Mathematics/Computational Methods of Engineering.
Complexity.
Artificial Intelligence (incl. Robotics).
Vibration, Dynamical Systems, Control.
Communications Engineering, Networks.
Dynamical Systems and Ergodic Theory.
TA329-348 TA640-643
519
Complex Networks Results of the 2009 International Workshop on Complex Networks (CompleNet 2009) / [electronic resource] : edited by Santo Fortunato, Giuseppe Mangioni, Ronaldo Menezes, Vincenzo Nicosia. - XVII, 225 p. online resource. - Studies in Computational Intelligence, 207 1860-949X ; . - Studies in Computational Intelligence, 207 .
Session 1: Analysis of Real Networks -- Dynamics and Evolution of the International Trade Network -- Small World Behavior of the Planetary Active Volcanoes Network: Preliminary Results -- Correlation Patterns in Gene Expressions along the Cell Cycle of Yeast -- Session 2: Community Structure -- Detecting and Characterizing the Modular Structure of the Yeast Transcription Network -- Finding Overlapping Communities Using Disjoint Community Detection Algorithms -- Discovering Community Structure on Large Networks Using a Grid Computing Environment -- Finding Community Structure Based on Subgraph Similarity -- Session 3: Network Modeling -- Structural Trends in Network Ensembles -- Generalized Attachment Models for the Genesis of Graphs with High Clustering Coefficient -- Modeling Highway Networks with Path-Geographical Transformations -- Session 4: Network Dynamics -- Simplicial Complex of Opinions on Scale-Free Networks -- An Axiomatic Foundation for Epidemics on Complex Networks -- Analytical Approach to Bond Percolation on Clustered Networks -- Session 5: Applications -- Order-Wise Correlation Dynamics in Text Data -- Using Time Dependent Link Reduction to Improve the Efficiency of Topic Prediction in Co-Authorship Graphs -- Fast Similarity Search in Small-World Networks -- Detection of Packet Traffic Anomalous Behaviour via Information Entropy -- Identification of Social Tension in Organizational Networks.
We live in a networked world. People are getting more and more interconnected through the new information and communication technologies, like mobile phones and the Internet. The function of cells can be understood via networks of interacting proteins. Ecosystems can be described through networks of taxonomic relationships between species. The network representation has proved to be a powerful tool to understand the structure and the dynamics of complex systems. Since the pioneering discovery of the scale-free property of the World Wide Web by Albert, Jeong and Barabási, the study of complex networks has become the leading discipline in complexity science. This volume is intended to bring to the attention of the scientific community recent advances in complex networks. It covers significant aspects of networks' structure and dynamics, both from the analytical and the empirical point of view. The works of this collection are contributed by a truly interdisciplinary community of scientists, from physicists to mathematicians, from computer scientists to engineers and economists.
9783642012068
10.1007/978-3-642-01206-8 doi
Engineering.
Artificial intelligence.
Differentiable dynamical systems.
Physics.
Engineering mathematics.
Vibration.
Telecommunication.
Engineering.
Appl.Mathematics/Computational Methods of Engineering.
Complexity.
Artificial Intelligence (incl. Robotics).
Vibration, Dynamical Systems, Control.
Communications Engineering, Networks.
Dynamical Systems and Ergodic Theory.
TA329-348 TA640-643
519