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Neuronal correlations in MT and MST impair population decoding of opposite directions of random dot motion
[article]
2018
bioRxiv
pre-print
The study of neuronal responses to random-dot motion patterns has provided some of the most valuable insights into how the activity of neurons is related to perception. In the opposite directions of motion paradigm, the motion signal strength is decreased by manipulating the coherence of random dot patterns to examine how well the activity of single neurons represents the direction of motion. To extend this paradigm to populations of neurons, studies have used modelling based on data from pairs
doi:10.1101/267732
fatcat:o4ybg2qcpvfk5ggoniqnruqmqi