H
H. Eugene Stanley
Researcher at Boston University
Publications - 1208
Citations - 134813
H. Eugene Stanley is an academic researcher from Boston University. The author has contributed to research in topics: Complex network & Phase transition. The author has an hindex of 154, co-authored 1190 publications receiving 122321 citations. Previous affiliations of H. Eugene Stanley include University of North Carolina at Chapel Hill & Wesleyan University.
Papers
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A Stochastic Model of Human Gait Dynamics
TL;DR: In this article, a stochastic model of gait rhythm dynamics, based on transitions between different "neural centers" that reproduces distinctive statistical properties of normal human walking is presented.
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Switching processes in financial markets
TL;DR: It is suggested that the well known catastrophic bubbles that occur on large time scales—such as the most recent financial crisis—may not be outliers but single dramatic representatives caused by the formation of increasing and decreasing trends on time scales varying over nine orders of magnitude from very large down to very small.
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Percolation of localized attack on complex networks
TL;DR: In this paper, the authors develop a percolation framework to analytically and numerically study the robustness of complex networks against localized attacks, and investigate this robustness in Erd?s?R?nyi networks, random-regular networks, and scale-free networks.
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Persistence and uncertainty in the academic career
TL;DR: It is shown that fluctuations in scientific production are quantitatively related to a scientist’s collaboration radius and team efficiency, and introduced a model of proportional growth which reproduces these two observations, and additionally accounts for the significantly right-skewed distributions of career longevity and achievement in science.
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Dynamic opinion model and invasion percolation.
TL;DR: This work proposes a "nonconsensus" opinion model that allows for stable coexistence of two opinions by forming clusters of agents holding the same opinion and shows that this model appears to belong to the same universality class as invasion percolation.