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Michael Arbib: CS564 - Brain Theory and Artificial Intelligence University of Southern California, Fall 2001 Lecture 24. Sequence Learning Reading Assignment: Reprint Dominey, P.F., Arbib, M.A., and Joseph, J.-P., 1995, A Model of Corticostriatal Plasticity for Learning Associations and Sequences, J. Cog. Neurosci., 7:311-336. Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 1 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 2 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 3 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 4 Visual Input "What" "Where" Posterior Parietal Cx V4 FEF Inferior Temporal Cortex Noise Caudate Modifiable Synapses SNr Thalamus (MD) Reward Pathways leading to DA release by SNc Behavior Superior Colliculus Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 5 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 6 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 7 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 8 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 9 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 10 Visual-Oculomotor Conditional Learning (a) plus local peak disinhibition of yields from which winner-take-all selects the corresponding target Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 11 But what if target positions are not fixed? Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 12 (b) plus gradient disinhibition of yields from which winner-take-all selects the rightmost target Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 13 Visual Input Prefrontal Cortex Posterior Parietal Cx FEF Noise Randomized trials Reward Caudate SNr Modifiable Synapses Simulation Environment Behavior Thalamus (VA-MD) Superior Colliculus Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 14 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 15 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 16 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 17 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 18 Michael Arbib CS564 - Brain Theory and Artificial Intelligence, USC, Fall 2001. Lecture 24. Sequence Learning 19
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