S
Stefano Boccaletti
Researcher at Moscow Institute of Physics and Technology
Publications - 361
Citations - 29686
Stefano Boccaletti is an academic researcher from Moscow Institute of Physics and Technology. The author has contributed to research in topics: Complex network & Synchronization (computer science). The author has an hindex of 60, co-authored 348 publications receiving 25776 citations. Previous affiliations of Stefano Boccaletti include King Juan Carlos University & Istituto Nazionale di Fisica Nucleare.
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Aspiration-based coevolution of node weights promotes cooperation in the spatial prisoner’s dilemma game
TL;DR: A coevolution rule between individuals' node weights and aspiration results in spontaneous emergence of cyclic dominance, where defectors with low weight become cooperators by imitating cooperators with high weight.
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Generalized synchronization in mutually coupled oscillators and complex networks.
TL;DR: A concept of generalized synchronization, able to encompass the setting of collective synchronized behavior for mutually coupled systems and networking systems featuring complex topologies in their connections, is introduced.
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Adaptive Recognition of a Chaotic Dynamics
TL;DR: The local variation rates of a chaotic dynamical system provide a means of stroboscopic observation at adjustable times which minimize the second variation of the coordinates, yielding a suitable indicator which discriminates deterministic from stochastic signals.
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Targeting the dynamics of complex networks
Ricardo Gutiérrez,Irene Sendiña-Nadal,Irene Sendiña-Nadal,Massimiliano Zanin,David Papo,Stefano Boccaletti +5 more
TL;DR: A generic procedure to steer (target) a network's dynamics towards a given, desired evolution through a Master Stability Function approach, assessing the stability of the aimed dynamics, and through a selection of nodes to be targeted.
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Constructive effects of noise in homoclinic chaotic systems.
Changsong Zhou,Jürgen Kurths,Enrico Allaria,Stefano Boccaletti,Riccardo Meucci,F. T. Arecchi +5 more
TL;DR: This work demonstrates both numerically and experimentally on a CO2 laser various constructive effects of noise, including coherence resonance, noise-induced synchronization in uncoupled systems and noise-enhanced phase synchronization, deterministic resonance with respect to signal frequency, and stochastic resonance versus noise intensity in response to weak signals.