An emergent temporal basis set robustly supports cerebellar time-series learning
Jesse I. Gilmer, Michael A. Farries, Zachary P. Kilpatrick, Ioannis Delis, Jeremy D. Cohen, Abigail L. Person
Abstract
During movement, mossy fiber inputs to the cerebellum relay time-varying information with strong intrinsic relationships to ongoing movement. Are such mossy fibers signals sufficient to support Purkinje signals and learning? In a model, we show how the GCL greatly improves Purkinje learning of complex, temporally dynamic signals relative to mossy fibers alone. Learning-optimized GCL population activity was moderately dense, which retained intrinsic input variance while also performing pattern separation.
Topics & Concepts
Mossy fiber (hippocampus)CerebellumNeuroscienceSet (abstract data type)Computer scienceMovement (music)PopulationPsychologyPhysicsCentral nervous systemAcousticsDemographyDentate gyrusProgramming languageSociologyVestibular and auditory disordersNeural dynamics and brain functionVisual perception and processing mechanisms