Identifying distinct neural features between the initial and corrective phases of precise reaching using AutoLFADS

Abstract: Many initial movements require subsequent corrective movements but how motor cortex transitions to make corrections and how similar the encoding is to initial movements is unclear. We recorded a large population of neurons during a precision reaching task across multiple sessions to examine the neural space during not only initial movements but also subsequent corrective movements. AutoLFADS, an auto-encoder based deep-learning model, was applied to analyze individual corrective movements unique to any given t… Show more