V
Vito Latora
Researcher at Queen Mary University of London
Publications - 360
Citations - 41121
Vito Latora is an academic researcher from Queen Mary University of London. The author has contributed to research in topics: Complex network & Centrality. The author has an hindex of 78, co-authored 332 publications receiving 35697 citations. Previous affiliations of Vito Latora include University of Catania & University of Paris.
Papers
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Journal ArticleDOI
Layered social influence promotes multiculturality in the Axelrod model.
TL;DR: In this paper, the authors propose a microscopic model of culture dissemination which takes into account that, in real social systems, the interactions are organized in various layers corresponding to different interests or topics, and show that the addition of multiplexity in the modeling of our society generates qualitatively novel dynamical behavior, producing a new stable regime of cultural diversity.
Quantifying the relevance of different mediators in the human immune cell network
Paolo Tieri,Silvana Valensin,Vito Latora,Gastone Castellani,Massimo Marchiori,Daniel Remondini,Claudio Franceschi +6 more
TL;DR: In this paper, a method for quantifying the relevance of different mediators in the immune network is presented, which exploits a definition of centrality based on the concept of efficient communication.
Proceedings ArticleDOI
Exploiting temporal complex network metrics in mobile malware containment
TL;DR: A time-aware containment strategy that spreads a patch message starting from nodes with high temporal closeness centrality and it is shown that this scheme reduces the cellular network resource consumption and associated costs, achieving complete containment of malware in a limited amount of time.
Book ChapterDOI
The Hamiltonian Mean Field Model: From Dynamics to Statistical Mechanics and Back
Thierry Dauxois,Vito Latora,Vito Latora,Andrea Rapisarda,Andrea Rapisarda,Stefano Ruffo,Stefano Ruffo,Alessandro Torcini,Alessandro Torcini +8 more
TL;DR: In this article, both attractive and repulsive interactions of particle systems with infiniterange coupling have been studied from a thermodynamic and dynamical point of view, with a particular emphasis on the description of clustering phenomena.
Journal ArticleDOI
Distributed Control of Synchronization of a Group of Network Nodes
TL;DR: A distributed control is proposed that introduces further interactions between the oscillators guaranteeing the onset and the stability of the desired synchronous manifold, and it is shown that the Stability of the synchronization pattern mainly depends on the degree of the nodes to synchronize and can be controlled by increasing it.