David A. Robinson's Modeling the Oculomotor Control System
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David A. Robinson's Modeling the Oculomotor Control System
Leigh, R John; Optican, Lance M.; Demer, Joseph L.; Luebke, Anne E.; van Opstal, A. John; Ramat, Stefano; Anastasio, Thomas J.; Zee, David
Elsevier - Health Sciences Division
01/2022
460
Dura
Inglês
9780323992176
15 a 20 dias
1000
Descrição não disponível.
1. The function and phylogeny of eye movements 2. The behavior of motoneurons 3. Statics of plant mechanics 4. Dynamics of plant mechanics 5. The functional operation of the vestibulo-ocular reflex 6. Basic framework of the vestibulo-ocular reflex 7. Oculomotor signals 8. Signal processing in the vestibulo-ocular reflex 9. Plasticity and repair of the vestibulo-ocular reflex 10. The behavior of the optokinetic system 11. Models of the optokinetic system 12. Neurophysiology of the optokinetic system 13. Properties of rapid eye movements 14. Neurophysiology, pathology, and models of rapid eye movements 15. The quick-phase system 16. Behavior of the saccadic system: Metrics of timing and accuracy 17. Neurophysiology of the saccadic system: The reticular formation 18. Eye stabilization 19. Properties of pursuit movements 20. Models of pursuit 21. The neurophysiology of pursuit
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Active braking; Active-state tension; Adaptation; After-images; Algorithm; Burst neurons; Cerebellar flocculus; Cerebellum; Cortical area MT; Cross-species comparison; Dead zone; Dorsolateral pontine nuclei; Double-step target jump; Drift; Dynamic overshoot; Express saccades; Extraocular muscles; Eye position; Eye-head movements; Eye-head tracking; Feedback; Feedback control model; Fixation; Flocculus; Force-velocity curves; Frontal eye fields; Gaze Purkinje cells; Hypometria; Hysteresis; Innervation; Instability; Length-tension curves; Length-tension-innervation; Medial longitudinal fasciculus; Medial thalamus; Medium-lead burst neurons; Microsaccades; Model; Motoneurons; Motor learning; Muscle fibers; Muscle tissues; Neural adaptation; Neural integrator; Neural noise; Nucleus of the optic tract; Nucleus prepositus hypoglossi; Nystagmus; Oculomotoneurons; Omnipause neurons; Optokinetic; Optokinetic nystagmus; Optokinetic system; Orbital tissues; Oscillations; Parietal lobe; Pause neurons; Peak eye velocity; Periodic alternating nystagmus; Plant; Plant models; Plasticity; Predictive mechanisms; Pulse-step innervation; Purkinje cells; Pursuit system; Push-pull; Quantitative hypothesis; Quick phase; Quick phases; Refractoriness; Reticular formation; Rotational vectors; Saccade amplitude; Saccade duration; Saccade latency; Saccades; Sample-and-hold; Self-rotation; Semicircular canals; Slant saccades; Smooth pursuit; Stabilization; Strabismus; Stretch afferents; Substantia nigra; Superior colliculus; Supplemental motor area; Three-dimensional behavior; Transfer function; Velocity storage; Vestibular neurons; Vestibular nucleus; Vestibulo-ocular reflex; Visual feedback; VOR
1. The function and phylogeny of eye movements 2. The behavior of motoneurons 3. Statics of plant mechanics 4. Dynamics of plant mechanics 5. The functional operation of the vestibulo-ocular reflex 6. Basic framework of the vestibulo-ocular reflex 7. Oculomotor signals 8. Signal processing in the vestibulo-ocular reflex 9. Plasticity and repair of the vestibulo-ocular reflex 10. The behavior of the optokinetic system 11. Models of the optokinetic system 12. Neurophysiology of the optokinetic system 13. Properties of rapid eye movements 14. Neurophysiology, pathology, and models of rapid eye movements 15. The quick-phase system 16. Behavior of the saccadic system: Metrics of timing and accuracy 17. Neurophysiology of the saccadic system: The reticular formation 18. Eye stabilization 19. Properties of pursuit movements 20. Models of pursuit 21. The neurophysiology of pursuit
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Active braking; Active-state tension; Adaptation; After-images; Algorithm; Burst neurons; Cerebellar flocculus; Cerebellum; Cortical area MT; Cross-species comparison; Dead zone; Dorsolateral pontine nuclei; Double-step target jump; Drift; Dynamic overshoot; Express saccades; Extraocular muscles; Eye position; Eye-head movements; Eye-head tracking; Feedback; Feedback control model; Fixation; Flocculus; Force-velocity curves; Frontal eye fields; Gaze Purkinje cells; Hypometria; Hysteresis; Innervation; Instability; Length-tension curves; Length-tension-innervation; Medial longitudinal fasciculus; Medial thalamus; Medium-lead burst neurons; Microsaccades; Model; Motoneurons; Motor learning; Muscle fibers; Muscle tissues; Neural adaptation; Neural integrator; Neural noise; Nucleus of the optic tract; Nucleus prepositus hypoglossi; Nystagmus; Oculomotoneurons; Omnipause neurons; Optokinetic; Optokinetic nystagmus; Optokinetic system; Orbital tissues; Oscillations; Parietal lobe; Pause neurons; Peak eye velocity; Periodic alternating nystagmus; Plant; Plant models; Plasticity; Predictive mechanisms; Pulse-step innervation; Purkinje cells; Pursuit system; Push-pull; Quantitative hypothesis; Quick phase; Quick phases; Refractoriness; Reticular formation; Rotational vectors; Saccade amplitude; Saccade duration; Saccade latency; Saccades; Sample-and-hold; Self-rotation; Semicircular canals; Slant saccades; Smooth pursuit; Stabilization; Strabismus; Stretch afferents; Substantia nigra; Superior colliculus; Supplemental motor area; Three-dimensional behavior; Transfer function; Velocity storage; Vestibular neurons; Vestibular nucleus; Vestibulo-ocular reflex; Visual feedback; VOR
