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Levels of Analysis

Cortical Lobes . Vision , Audition, Language . “What vs. Where”. Pathways/Networks. Cortical Areas. Motion, Color , Faces. Directions of motion, orientation . Cortical Column. Computations Lateral inhibition . Neural Circuit. Neuron. Code . Levels of Analysis.

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Levels of Analysis

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  1. Cortical Lobes Vision, Audition, Language “What vs. Where” Pathways/Networks Cortical Areas Motion, Color , Faces Directions of motion, orientation Cortical Column Computations Lateral inhibition Neural Circuit Neuron Code Levels of Analysis Anatomical Functional

  2. Organizational principles of the visual system • Retinotopy • Anatomical organization • “Hierarchical” organization • Functional organization based on neural response properties

  3. Retinotopy • Retinotopy = a spatial map of the visual field with retina-based coordinates • Implication = a spot of light in the visual field will activate a ‘spot’ of cortex based on eye position

  4. Retinotopy sets the stage • Retinotopy = a spatial map of the visual field with retina-based coordinates • Implication = a spot of light in the visual field will activate a ‘spot’ of cortex based on eye position • Retinotopicmaps define multiple visual areas (i.e., each “area” has its own map of the visual field)

  5. Macaque Retinotopy Source: Tootell et al., 1982

  6. V2d LVM V2v UVM Polar angle UVM Eccentricity HM LVM V1 F

  7. V2d LVM V2v UVM LVM V1 UVM F HM

  8. V2d LVM V2v UVM LVM V1 UVM F HM

  9. 8 Hz flicker (checks reverse contrast 8X/sec) • good stimulus for driving visual areas • subjects must maintain fixation (on center dot) EXPANDING RINGS ROTATING WEDGES

  10. Spatial Maps Beyond Visual Cortex • Hagler, D. and M.I. Sereno (2005) Spatial maps in frontal and prefrontal cortex. Neuroimage29:567-577 • Sereno, M.I., S. Pitzalis, and A. Martinez (2001) Mapping of contralateral space in retinotopic coordinates by a parietal cortical area in humans. Science294:1350-1354.

  11. MIDTERM • Worth 99% of final grade

  12. Retinotopy: a powerful tool for studying the mind • Retinotopy & Mental Imagery • Retinotopy & Attention • Retinotopy & Spatial Memory

  13. Visual Imagery (old days) • Does visual imagery rely on symbolic (“language-like”) processing or depictive (picture-like) representations? (Pylyshyn vs. Kosslyn) • Use RT in standard cognitive psychology paradigm to infer “visual-like” behavior.

  14. Visual Imagery (old days) RT depends on position of probe Imagery a ‘sequential’, ‘depictive’ operation x f

  15. Retinotopy & Visual Imagery • Slotnick SD, Thompson WL, Kosslyn SM. Visual mental imagery induces retinotopically organized activation of early visual areas. Cereb Cortex. 2005 Oct;15(10):1570-83. • Does imagery evoke cortical activity with precise visual field topography?

  16. Perception Imagery Attention

  17. Organizational principles of the visual system • Retinotopy • Anatomical Organization • “Hierarchical” organization • Functional Organization based on neural response properties

  18. Functional “Hierarchy” Properties of lower areas (lower = anatomically closer to the retina) form the building blocks of higher areas. • The visual feature(s) that elicit an increase in spike rate becomes progressively more complex. • “Selectivity” • “Tuning” • The area of visual space that elicits an increase in spike rate in a neuron becomes progressively larger. • “Receptive field”

  19. Input Image Early visual cortex Higher visual cortex Small & Simple Large & Complex

  20. Functional “Hierarchy” Properties of lower areas (lower = anatomically closer to the retina) form the building blocks of higher areas. • The visual feature(s) that elicit an increase in spike rate becomes progressively more complex. • “Selectivity” • “Tuning” • The area of visual space that elicits an increase in spike rate in a neuron becomes progressively larger. • “Receptive field”

  21. LGN  V1 Connections • More “complex” tuning/selectivity • Larger receptive fields

  22. LGN Response Properties • Selectivity = light/dark spots of light • Receptive fields = are extremely small. Fovea approximately few minutes (60 minutes = 1 degree)

  23. LGN Response Properties

  24. p.156 LGN  V1

  25. Functional “Hierarchy” • The visual feature(s) that elicit an increase in spike rate becomes progressively more complex. • “Selectivity” • “Tuning” • The area of visual space that elicits an increase in spike rate in a neuron becomes progressively larger. • “Receptive field”

  26. Movie Time On-center Off-center Direction Cell Simple Cell

  27. Functional “Hierarchy” • The visual feature(s) that elicit an increase in spike rate becomes progressively more complex. • “Selectivity” • “Tuning” • “Selective” = the type of stimulus that a neuron responds to • “Tuning” = a continuous stimulus dimension • A neuron can be “selective” (e.g., a “face cell”) but that doesn’t necessarily imply “tuning”

  28. Orientation tuning in V1

  29. 2 3 10 4 Can “Tuning” be measured with fMRI? 0 1

  30. ~1-2 mm

  31. Other forms of “tuning” • Other visual examples • Other auditory examples • …

  32. Beyond V1 • Assumption that the Hubel & Wiesel approach will extend to other visual areas • “Simple” feature selectivity combines to form more “complex” feature selectivity • “Hierarchical Feedforward Model” • Observations in extra-striate areas • Selectivity becomes more complex • Receptive fields are larger

  33. Next week Thursday

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