Benjamin Jüttner
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View article: Complex dynamics in adaptive phase oscillator networks
Complex dynamics in adaptive phase oscillator networks Open
Networks of coupled dynamical units give rise to collective dynamics such as the synchronization of oscillators or neurons in the brain. The ability of the network to adapt coupling strengths between units in accordance with their activity…
View article: Graphop mean-field limits and synchronization for the stochastic Kuramoto model
Graphop mean-field limits and synchronization for the stochastic Kuramoto model Open
Models of coupled oscillator networks play an important role in describing collective synchronization dynamics in biological and technological systems. The Kuramoto model describes oscillator’s phase evolution and explains the transition f…
View article: Complex dynamics in adaptive phase oscillator networks
Complex dynamics in adaptive phase oscillator networks Open
Networks of coupled dynamical units give rise to collective dynamics such as the synchronization of oscillators or neurons in the brain. The ability of the network to adapt coupling strengths between units in accordance with their activity…
View article: Correction of Fluorescent Probe Degradation in Biodistribution Studies
Correction of Fluorescent Probe Degradation in Biodistribution Studies Open
Fluorescence microscopy can be used for evaluating distribution of medical compounds in animal tissue. Fluorescence intensity decays in time and due to scanning, but correcting for this can improve accuracy. We present a mixed-effects mode…
View article: Graphop Mean-Field Limits and Synchronization for the Stochastic Kuramoto Model
Graphop Mean-Field Limits and Synchronization for the Stochastic Kuramoto Model Open
Models of coupled oscillator networks play an important role in describing collective synchronization dynamics in biological and technological systems. The Kuramoto model describes oscillator's phase evolution and explains the transition f…
View article: Birth and destruction of collective oscillations in a network of two populations of coupled type 1 neurons
Birth and destruction of collective oscillations in a network of two populations of coupled type 1 neurons Open
We study the macroscopic dynamics of large networks of excitable type 1 neurons composed of two populations interacting with disparate but symmetric intra- and inter-population coupling strengths. This nonuniform coupling scheme facilitate…