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Dynamical-systems-theory approach to the wall region
Gal Berkooz
, John Guckenheimer
, Philip Holmes
, John Lumley
, Jerrold Marsden
, Nadine Aubry
,
Emily Stone
Mathematical Sciences
Cornell University
City University of New York
Research output
:
Contribution to conference
›
Paper
›
peer-review
2
Scopus citations
Overview
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Engineering
Dynamical System Theory
100%
Streamwise
100%
Fixed Points
75%
Heisenberg Box
50%
Outer Variable
50%
Drag Reduction
50%
Velocity Field
25%
Simple Model
25%
Separation Control
25%
Feedback System
25%
Degree of Freedom
25%
Recurrent
25%
Bifurcation Diagram
25%
Instantaneous Velocity
25%
Experimental Measurement
25%
Reynolds Stress
25%
Downdraft
25%
Analysis Objective
25%
Truncation
25%
Boundary Layer
25%
Limit Cycle
25%
Black Box
25%
Eigenvalue
25%
Eigenvector
25%
Traveling Wave
25%
Mathematics
Fixed Points
100%
Systems Theory
100%
Dynamical System
100%
Eigenvalue
33%
Non-Linear Ordinary Differential Equations
33%
Closed Set
33%
Representation Theorem
33%
Instantaneous Velocity
33%
Simple Model
33%
Traveling Wave
33%
Truncation
33%
Limit Cycle
33%
Degree of Freedom
33%
Eigenvector
33%
Boundary Layer
33%
Velocity Distribution
33%
Physics
Dynamical System
100%
Drag Reduction
100%
Traveling Wave
50%
Operators (Mathematics)
50%
Vertical Air Currents
50%
Boundary Layer
50%
Feedback
50%
Deceleration
50%
Degree of Freedom
50%
Earth and Planetary Sciences
Systems Theory
100%
Traveling Wave
50%
Velocity Distribution
50%
Eigenvector
50%
Boundary Layer
50%
Feedback
50%