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L. Itti: CS564 - Brain Theory and Artificial Intelligence University of Southern California

L. Itti: CS564 - Brain Theory and Artificial Intelligence University of Southern California. Lecture 15. Saccades 1 Reading Assignments: TMB 6.2 The Modular Design of the Oculomotor System in Monkeys Peter Dominey, Michael Arbib, and Amanda Alexander Sections: Description, Architecture

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L. Itti: CS564 - Brain Theory and Artificial Intelligence University of Southern California

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  1. L. Itti: CS564 - Brain Theory and Artificial IntelligenceUniversity of Southern California • Lecture 15. Saccades 1 • Reading Assignments: TMB 6.2 • The Modular Design of the Oculomotor System in Monkeys • Peter Dominey, Michael Arbib, and Amanda Alexander • Sections: Description, Architecture • Supplementary Reading: • Crowley-Arbib Saccade Model • M. Crowley, E. Oztop, and S. Marmol

  2. From Schemas to Neural Networks - A Case Study: Modeling the Control of Saccades Classical Model of Reflex Saccades Expanding the Model to Bring in Cortical Functions

  3. Filling in the Schemas: Neural Network Models Based on Monkey NeurophysiologyPeter Dominey & Michael Arbib: Cerebral Cortex, 2:153-175 Develop hypotheses onNeural Networksthat yield an equivalent functionality: mappingschemas (functions)to the cooperative cooperation of sets ofbrain regions (structures)

  4. Experimental Protocols and Simulation Interfaces An experimental protocol defines a class of experiments based on: • Preparation used • External stimuli • Experimental manipulations : electrical stimulation, drug application, etc. • Measurements and observations The protocol can be translated into a simulation interface for “stimulating” a simulation and displaying the results.

  5. Experiment - Double Saccade

  6. Double Saccade -- Neural Array Activity Snapshot

  7. Brain Stem Saccade Burst Generator • LLBN-Long Lead Burst Neurons, MLBN-Medium Lead Burst Neurons, EBN-Excitatory Burst Neurons, PN-Omni-Pause Neurons, RI-Resettable Integrator, TN-Tonic Neurons, MN-Oculomotor Neurons. • In the present Chapter/Lecture, this is treated as an unanalyzed module (available from the NSL Library) so that attention may focus on the other brain regions, which are described next.

  8. Bringing in SC and FEF • SC - Superior Colliculus: The midbrain’s path from vision (and other senses) to eye movement. • FEF - Frontal Eye Field: The cortex’s path from vision to eye movement. • Data point: A cat or monkey can still make saccades if oneof SC or FEF is lesioned.

  9. Simple Saccade Task + time

  10. Experimental Setup

  11. Timing Diagram for Simple Saccade Experiment "visinP3M3" is the stimulus for the first target , "fixation" is the fixation timing, "verticalTheta" is the vertical eye movement response, and "horizontalTheta" is the horizontal eye movement response. Notice that the eyes do not move until the "posteriorParietalCenter", a specific neuron in the model of LIP, goes low.

  12. Memory Saccade Experiment + + + time

  13. Timing Diagram for Memory Saccade Experiment • "visinM2P2" is the stimulus for the target, "fixation" is the fixation timing, "verticalTheta" is the vertical eye movement response, and "horizontalTheta" is the horizontal eye movement response

  14. Double Saccade Experiment + time

  15. Timing Diagram for the Double Saccade Experiment • "visinM3P0" is the stimulus for the first target and "visinM3P3" is the stimulus for the second target. "fixation" is the fixation timing, "verticalTheta" is the vertical eye movement response, and "horizontalTheta" is the horizontal eye movement response.

  16. Timing Diagram for Lesioning of SC Experiment • Output of SC is disabled. • "visinP3M3" is the stimulus for the first target , "fixation" is the fixation timing, "verticalTheta" is the vertical eye movement response, and "horizontalTheta" is the horizontal eye movement response.

  17. FEF Stimulation with SC Lesioned + FEF Stimulation time

  18. Compensatory Saccade: Stimulation of FEF with Lesioning of SC • A visual target is briefly presented and removed before a saccade can begin. Before the visual saccade can begin, an electrical stimulus is applied to the FEF. The monkey will first saccade to the stimulated location and then to the real target even though timewise the real target appeared first. This is due to the fact that the the visual signal takes time to get from the retina to the FEF.

  19. The Full Dominey Model • DCEP-Damped Change in Eye Position • 7a/LIP-Oculomotor Region of Posterior Parietal Cortex

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