Desynchronization and inhibition of Kuramoto oscillators by scalar mean-field feedback
From MaRDI portal
Publication:422402
DOI10.1007/s00498-011-0072-9zbMath1238.93035OpenAlexW2089241976MaRDI QIDQ422402
Alessio Franci, Elena Panteley, Antoine Chaillet, Françoise Lamnabhi-Lagarrigue
Publication date: 16 May 2012
Published in: MCSS. Mathematics of Control, Signals, and Systems (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00498-011-0072-9
Feedback control (93B52) Application models in control theory (93C95) Medical applications (general) (92C50) Asymptotic stability in control theory (93D20)
Related Items
Synchrony suppression in ensembles of coupled oscillators via adaptive vanishing feedback ⋮ Stabilization of a network of the FitzHugh-Nagumo oscillators by means of a single capacitor based RC filter feedback technique ⋮ Designing a deep brain stimulator to suppress pathological neuronal synchrony ⋮ Desynchronization and inhibition of Kuramoto oscillators by scalar mean-field feedback ⋮ Synchronization in complex networks of phase oscillators: a survey ⋮ Desynchronization of coupled limit-cycle oscillators through nonlinear output regulation ⋮ Robustness of Delayed Multistable Systems ⋮ A MATHEMATICAL APPROACH TO DESYNCHRONIZATION OF COUPLED OSCILLATORS: APPLICATION TO A NEURONAL ENSEMBLE ⋮ Robustness of delayed multistable systems with application to droop-controlled inverter-based microgrids ⋮ Aging transition in the absence of inactive oscillators ⋮ Practical dynamic consensus of Stuart–Landau oscillators over heterogeneous networks
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Desynchronization and inhibition of Kuramoto oscillators by scalar mean-field feedback
- Oscillator death in populations of all to all coupled nonlinear oscillators
- Existence and robustness of phase-locking in coupled Kuramoto oscillators under mean-field feedback
- Chemical oscillations, waves, and turbulence
- Cybernetical physics. From control of chaos to quantum control.
- Controlling chaos. Suppression, synchronization and chaotification
- Nonlinear oscillations, dynamical systems, and bifurcations of vector fields
- Nonlinear control systems. II
- On self-synchronization and controlled synchronization
- Chaotifying a continuous-time system near a stable limit cycle.
- From Kuramoto to Crawford: Exploring the onset of synchronization in population of coupled oscillators
- Control of neuronal synchrony by nonlinear delayed feedback
- Washout filter aided mean field feedback desynchronization in an ensemble of globally coupled neural oscillators
- Effectively desynchronizing deep brain stimulation based on a coordinated delayed feedback stimulation via several sites: a computational study
- TWOFOLD IMPACT OF DELAYED FEEDBACK ON COUPLED OSCILLATORS
- DESYNCHRONIZATION AND DECOUPLING OF INTERACTING OSCILLATORS BY NONLINEAR DELAYED FEEDBACK
- DELAYED FEEDBACK SUPPRESSION OF COLLECTIVE RHYTHMIC ACTIVITY IN A NEURONAL ENSEMBLE
- Properties of Center Manifolds
- Oscillator Death in Systems of Coupled Neural Oscillators
- Chaotification via Feedback: The Discrete Case
- Relaxed persistency of excitation for uniform asymptotic stability
- Existence of Partial Entrainment and Stability of Phase Locking Behavior of Coupled Oscillators
- On Exponential Synchronization of Kuramoto Oscillators
- Stabilization of Planar Collective Motion: All-to-All Communication
- Stability Robustness in the Presence of Exponentially Unstable Isolated Equilibria
- On the Critical Coupling for Kuramoto Oscillators
- MULTISITE COORDINATED DELAYED FEEDBACK FOR AN EFFECTIVE DESYNCHRONIZATION OF NEURONAL NETWORKS
- Role of unstable periodic orbits in phase and lag synchronization between coupled chaotic oscillators
- Invariant manifolds
- Sufficient conditions for the existence of an unbounded solution
