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Central visual pathways. NRS 495 – Neuroscience Seminar Christopher DiMattina , PhD. Retinal information p rocessing. Ganglion cell receptive fields. H ave a center-surround organization ( Kuffler 1953). Spatial frequency filtering. Contrast coding. Mach bands. Mach bands.
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Central visual pathways NRS 495 – Neuroscience Seminar Christopher DiMattina, PhD
Retinal information processing NRS 495 - Grinnell College - Fall 2012
Ganglion cell receptive fields • Have a center-surround organization (Kuffler 1953) NRS 495 - Grinnell College - Fall 2012
Spatial frequency filtering NRS 495 - Grinnell College - Fall 2012
Contrast coding NRS 495 - Grinnell College - Fall 2012
Mach bands NRS 495 - Grinnell College - Fall 2012
Mach bands NRS 495 - Grinnell College - Fall 2012
Detecting edges NRS 495 - Grinnell College - Fall 2012
From retina to cortex NRS 495 - Grinnell College - Fall 2012
The visual pathway NRS 495 - Grinnell College - Fall 2012
Lateral geniculate nucleus NRS 495 - Grinnell College - Fall 2012
Mapping the visual field NRS 495 - Grinnell College - Fall 2012
Mapping the visual field NRS 495 - Grinnell College - Fall 2012
Cortical magnification NRS 495 - Grinnell College - Fall 2012
Cortical magnification NRS 495 - Grinnell College - Fall 2012
Orientation tuning NRS 495 - Grinnell College - Fall 2012
Model of orientation tuning NRS 495 - Grinnell College - Fall 2012
Types of simple cells NRS 495 - Grinnell College - Fall 2012
Simple and complex cells NRS 495 - Grinnell College - Fall 2012
Complex cell model NRS 495 - Grinnell College - Fall 2012
Columnar organization NRS 495 - Grinnell College - Fall 2012
Ocular dominance NRS 495 - Grinnell College - Fall 2012
Functional maps NRS 495 - Grinnell College - Fall 2012
Object representation NRS 495 - Grinnell College - Fall 2012
What and where pathways NRS 495 - Grinnell College - Fall 2012
What and where pathways NRS 495 - Grinnell College - Fall 2012
Inferotemporal cortex NRS 495 - Grinnell College - Fall 2012
Jennifer Aniston neuron NRS 495 - Grinnell College - Fall 2012
Object recognition is hard NRS 495 - Grinnell College - Fall 2012
Template matching NRS 495 - Grinnell College - Fall 2012
Template matching is problematic NRS 495 - Grinnell College - Fall 2012
Feature detection hierarchies NRS 495 - Grinnell College - Fall 2012
Hierarchical organization of cortex NRS 495 - Grinnell College - Fall 2012
V1 cells like edges NRS 495 - Grinnell College - Fall 2012
V2 cells – more complex stimuli NRS 495 - Grinnell College - Fall 2012
Some V2 neurons represent border ownership NRS 495 - Grinnell College - Fall 2012
V2 cells represent illusory contours NRS 495 - Grinnell College - Fall 2012
V4 cells tuned for complex shape NRS 495 - Grinnell College - Fall 2012
IT cells tuned for 3-D shape NRS 495 - Grinnell College - Fall 2012
Topographic organization of IT NRS 495 - Grinnell College - Fall 2012
Specialization in human cortex NRS 495 - Grinnell College - Fall 2012
Viewpoint dependence NRS 495 - Grinnell College - Fall 2012
Viewpoint dependence NRS 495 - Grinnell College - Fall 2012
A model of ventral stream NRS 495 - Grinnell College - Fall 2012
Paperclip responses - Data NRS 495 - Grinnell College - Fall 2012
Paperclip responses - Model NRS 495 - Grinnell College - Fall 2012
Scrambled stimuli NRS 495 - Grinnell College - Fall 2012
Summary • Visual system organized hierarchically • Two processing streams • Increasing feature selectivity ultimately serves object recognition • Mechanisms remain poorly understood NRS 495 - Grinnell College - Fall 2012