Puebla, HectorHectorPueblaOrtiz Vargas, MoisésMoisésOrtiz VargasAguilar-Lopez, RicardoRicardoAguilar-LopezHernandez-Martinez, EliseoEliseoHernandez-Martinez2023-07-132023-07-132007https://scripta.up.edu.mx/handle/20.500.12552/371610.3182/20070604-3-mx-2914.00083Circadian rhythms are endogenous rhythms in physiology or behavior with a cycle length near 24 hours. Circadian rhythms are relevant for many key physiological functions. The periodic light-dark cycle is the dominant environmental synchronizer used to entrain a population of circadian oscillators. In this work we introduce a control approach for both suppression and synchronization of coupled circadian oscillators. The control scheme is based on a modeling error compensation approach. Numerical simulations shows the effectivity of the feedback control law for suppression and synchronization of an array of coupled circadian oscillators via a light-sensitive parameter.Resource Types::text::journal::journal article