The following pages link to Edward Ott (Q191636):
Displaying 40 items.
- Using machine learning to replicate chaotic attractors and calculate Lyapunov exponents from data (Q4563888) (← links)
- Controlling systems that drift through a tipping point (Q4591592) (← links)
- Defining chaos (Q4591756) (← links)
- Dynamical transitions in large systems of mean field-coupled Landau-Stuart oscillators: Extensive chaos and cluster states (Q4591817) (← links)
- Observing microscopic transitions from macroscopic bursts: Instability-mediated resetting in the incoherent regime of the D-dimensional generalized Kuramoto model (Q4631845) (← links)
- Modeling the network dynamics of pulse-coupled neurons (Q4642564) (← links)
- Frequency and phase synchronization in large groups: Low dimensional description of synchronized clapping, firefly flashing, and cricket chirping (Q4642596) (← links)
- Uncovering low dimensional macroscopic chaotic dynamics of large finite size complex systems (Q4644268) (← links)
- PHASE SYNCHRONIZATION IN A MODULATED CHAOTIC LASER ARRAY (Q4669137) (← links)
- Chaos in Dynamical Systems (Q4779064) (← links)
- Fractal Patterns of Tracers Advected by Smooth Temporally Irregular Fluid Flows and their Analysis by Use of Random Maps (Q4810237) (← links)
- (Q4811506) (← links)
- (Q4850570) (← links)
- Targeting in Hamiltonian systems that have mixed regular/chaotic phase spaces (Q4935799) (← links)
- Using data assimilation to train a hybrid forecast system that combines machine-learning and knowledge-based components (Q4993713) (← links)
- Crises, sudden changes in chaotic attractors, and transient chaos (Q5186440) (← links)
- (Q5186441) (← links)
- (Q5186444) (← links)
- External periodic driving of large systems of globally coupled phase oscillators (Q5246320) (← links)
- Low dimensional behavior of large systems of globally coupled oscillators (Q5246321) (← links)
- Echo phenomena in large systems of coupled oscillators (Q5246324) (← links)
- Long time evolution of phase oscillator systems (Q5246372) (← links)
- The stability of adaptive synchronization of chaotic systems (Q5250397) (← links)
- Map model for synchronization of systems of many coupled oscillators (Q5250438) (← links)
- Low dimensional description of pedestrian-induced oscillation of the Millennium Bridge (Q5251417) (← links)
- Using synchronization of chaos to identify the dynamics of unknown systems (Q5264290) (← links)
- Dynamics and pattern formation in large systems of spatially-coupled oscillators with finite response times (Q5264530) (← links)
- The dynamics of network coupled phase oscillators: An ensemble approach (Q5264544) (← links)
- Local synchronization in complex networks of coupled oscillators (Q5264549) (← links)
- Comment on “Long time evolution of phase oscillator systems” [Chaos <b>19</b>, 023117 (2009)] (Q5264552) (← links)
- Effects of network topology, transmission delays, and refractoriness on the response of coupled excitable systems to a stochastic stimulus (Q5264558) (← links)
- Topology in chaotic scattering (Q5354391) (← links)
- Complexity reduction ansatz for systems of interacting orientable agents: Beyond the Kuramoto model (Q5382849) (← links)
- (Q5455359) (← links)
- Localized error bursts in estimating the state of spatiotemporal chaos (Q5705458) (← links)
- Controlling chaotic dynamical systems (Q5901213) (← links)
- Three-dimensional optical billiard chaotic scattering (Q5938410) (← links)
- Synchronization in networks of networks: the onset of coherent collective behavior in systems of interacting populations of heterogeneous oscillators (Q6206049) (← links)
- Critical Network Cascades with Re-excitable nodes: Why tree-like approximations usually work, when they breakdown, and how to correct them (Q6318930) (← links)
- Using machine learning to anticipate tipping points and extrapolate to post-tipping dynamics of non-stationary dynamical systems (Q6572701) (← links)
