Optimal open-loop desynchronization of neural oscillator populations
DOI10.1007/s00285-020-01501-1zbMath1447.92208OpenAlexW3024747062WikidataQ94955000 ScholiaQ94955000MaRDI QIDQ782865
Publication date: 29 July 2020
Published in: Journal of Mathematical Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00285-020-01501-1
optimal controlsynchronizationFloquet theoryoscillatorsneuroscienceisostable coordinatesphase-amplitude reduction
Neural biology (92C20) Medical applications (general) (92C50) Nonlinear oscillations and coupled oscillators for ordinary differential equations (34C15) Biological rhythms and synchronization (92B25)
Related Items (4)
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Minimum energy desynchronizing control for coupled neurons
- Chemical oscillations, waves, and turbulence
- Mathematical foundations of neuroscience
- Nonlinear oscillations, dynamical systems, and bifurcations of vector fields
- Isochrons and phaseless sets
- The dynamics of \(n\) weakly coupled identical oscillators
- Phase model-based neuron stabilization into arbitrary clusters
- Greater accuracy and broadened applicability of phase reduction using isostable coordinates
- Origins and suppression of oscillations in a computational model of Parkinson's disease
- Phase reduction and phase-based optimal control for biological systems: a tutorial
- A model of desynchronizing deep brain stimulation with a demand-controlled coordinated reset of neural subpopulations
- Phase distribution control of a population of oscillators
- Optimal Chaotic Desynchronization for Neural Populations
- On Circulant Matrices
- Phase reduction and synchronization of a network of coupled dynamical elements exhibiting collective oscillations
- On the Phase Reduction and Response Dynamics of Neural Oscillator Populations
- An Optimal Framework for Nonfeedback Stability Control of Chaos
- Augmented Phase Reduction of (Not So) Weakly Perturbed Coupled Oscillators
- Handbook of stochastic methods for physics, chemistry and the natural sciences.
- Averaging methods in nonlinear dynamical systems
- The geometry of biological time.
This page was built for publication: Optimal open-loop desynchronization of neural oscillator populations
