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Thursday, August 25, 2016
2:40 PM - 2:50 PM
CNLS Conference Room (TA-3, Bldg 1690)

Student Seminar

Entrainment of coupled phase oscillators

Jordan Snyder
UC Davis

"Complex" systems are ubiquitous, and often difficult to control. As a toy model for the control of a complex system, we take a system of coupled phase oscillators, all subject to the same periodic driving signal. It was shown by Zlotnik and collaborators that in the absence of coupling, this can result in each oscillator attaining the frequency of the driving signal, with a phase offset determined by the oscillator's natural frequency. We consider a special case in which the coupling tends to destabilize the phase configuration to which the driving signal would send the oscillators in the absence of coupling. In this setting we derive stability estimates that capture the trade-off between driving and coupling, and compare these results to the unforced version (i.e. the standard Kuramoto model).

Host: Chris Neale