E
Edward Ott
Researcher at University of Maryland, College Park
Publications - 676
Citations - 48167
Edward Ott is an academic researcher from University of Maryland, College Park. The author has contributed to research in topics: Attractor & Chaotic. The author has an hindex of 101, co-authored 669 publications receiving 44649 citations. Previous affiliations of Edward Ott include Johns Hopkins University Applied Physics Laboratory & Eötvös Loránd University.
Papers
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Journal ArticleDOI
Estimating the state of large spatio-temporally chaotic systems
Edward Ott,Brian R. Hunt,Istvan Szunyogh,Aleksey V. Zimin,Eric J. Kostelich,Eric J. Kostelich,M. Corazza,Eugenia Kalnay,D. J. Patil,James A. Yorke +9 more
TL;DR: In this paper, a Local Ensemble Kalman Filter (LEF) was proposed to estimate the state of a large spatio-temporally chaotic system from noisy observations and knowledge of a system model.
Posted Content
Spatially embedded growing small-world networks
Ari Zitin,Alex Gorowora,Shane Squires,Mark Herrera,Thomas M. Antonsen,Michelle Girvan,Edward Ott +6 more
TL;DR: In this article, a class of spatially-based growing network models is proposed and the relationship between the resulting statistical network properties and the dimension and topology of the space in which the networks are embedded is investigated.
Journal ArticleDOI
Nonlinear space-charge waves on cylindrical electron beams and plasmas
T.P. Hughes,Edward Ott +1 more
TL;DR: In this article, nonlinear space-charge waves in a strongly magnetized cylindrical plasma are investigated and Soliton and periodic wave solutions are obtained for the case of an intense unneutralized electron beam, a significant decrease in the phase velocity of the slow space charge wave is found at large amplitudes.
Journal ArticleDOI
Calculating topological entropy for transient chaos with an application to communicating with chaos
TL;DR: Numerical methods for evaluating topological entropy for chaotic invariant sets are discussed, and the dependence of the topology entropy on the size of the gap is discussed.
Proceedings ArticleDOI
Statistical characterization of complex enclosures with distributed ports
TL;DR: In this paper, a statistical model, the Random Coupling Model, that describes the coupling of radiation into and out of large electrical enclosures is described and generalized, with particular attention paid to the case in which the ports are electrically large and described by multiple modes (distributed ports).