Leveraging deep learning to control neural oscillators
BIOLOGICAL CYBERNETICS(2021)
摘要
Modulation of the firing times of neural oscillators has long been an important control objective, with applications including Parkinson’s disease, Tourette’s syndrome, epilepsy, and learning. One common goal for such modulation is desynchronization, wherein two or more oscillators are stimulated to transition from firing in phase with each other to firing out of phase. The optimization of such stimuli has been well studied, but this typically relies on either a reduction of the dimensionality of the system or complete knowledge of the parameters and state of the system. This limits the applicability of results to real problems in neural control. Here, we present a trained artificial neural network capable of accurately estimating the effects of square-wave stimuli on neurons using minimal output information from the neuron. We then apply the results of this network to solve several related control problems in desynchronization, including desynchronizing pairs of neurons and achieving clustered subpopulations of neurons in the presence of coupling and noise.
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关键词
Oscillators, Machine learning, Neurons, Clustering, Control, Dynamic programming
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