Zhi-Xi Wu
Lanzhou University
132 Papers
360 Citations
Zhi-Xi Wu is an academic researcher from Lanzhou University. The author has contributed to research in topics: Population & Prisoner's dilemma. The author has an hindex of 35, co-authored 120 publications. Previous affiliations of Zhi-Xi Wu include University of Hong Kong & City University of Hong Kong.
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Papers
•Posted Content
Controlling herding in minority game systems
TL;DR: In this article, the authors developed a pinning control method to suppress and eliminate herding behavior in complex systems with potential applications in social, economical, and political systems, and carried out a detailed theoretical analysis to understand the emergence of optimal pinning and to predict the dependence of the optimal fraction on the network topology.
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Nonmonotonic enhancement of diversity-induced resonance in systems of mobile oscillators
Cong Liu,Zhi-Xi Wu,Jian-Yue Guan +2 more
TL;DR: Diversity-induced resonance can be optimized by spatial mobility, leading to promising applications in mobile communication.
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Multiscaling in an YX model of networks.
TL;DR: In this paper, the authors investigate a Hamiltonian model of networks, which is an amirror formulation of the XY model, instead of letting the XY spins vary, keeping the coupling topology static, they keep th...
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Expansion of cooperatively growing populations: Optimal migration rates and habitat network structures
TL;DR: This work study how cooperatively growing populations spread on networks representing the skeleton of complex landscapes and observes a resonance phenomenon in how the critical condition depends on the expansion rate, indicating the existence of an optimal strategy for global expansion.
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Double resonance induced by group coupling with quenched disorder.
TL;DR: In this article , the role of heterogeneous couplings among interacted neuron-astrocyte components in a signal response was explored and two types of bell-shaped collective response curves were obtained as the ensemble coupling strength or the heterogeneity of group coupling rise, respectively.
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