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Visual Cognition I basic processes. What is perception good for? We often receive incomplete information through our senses. Information can be highly.

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Presentation on theme: "Visual Cognition I basic processes. What is perception good for? We often receive incomplete information through our senses. Information can be highly."— Presentation transcript:

1 Visual Cognition I basic processes

2 What is perception good for? We often receive incomplete information through our senses. Information can be highly ambiguous Perceptual system must resolve ambiguities by drawing inferences from a large set of perceptual cues and conceptual knowledge of the world

3 Slide from Rob Goldstone Perceptual system is always looking for meaningful patterns

4 Object Recognition System must be flexible to recognize variations in object shapes

5 Basic processes in the Visual System

6 Hierarchical Organization Visual Input Low Level Vision High Level Vision Oriented bars/edges, Motion, Texture, Depth Object/Face/Scene recognition Knowledge

7

8 Functional Specialization Spatially different areas are functionally specialized for processing visual attributes such as shape, color, orientation, and direction of motion Achromatopsia (damage to V4) cortical color blindness all color vision is lost and the world appears in shades of gray. And in achromatopsia, unlike as in blindness caused by damage to the eyes or optic nerve, even memory of color is gone Akinetopsia (damage to V5 or MT) or motion blindness—the loss of the ability to see objects move. Those affected report that they perceive a collection of still images.

9 Primary and Secondary Visual Cortex (V1 and V2) Retinotopic maps Receptive fields: –On-off cells; Off-on cells –Orientation sensitive cells (“simple” cells) Lateral inhibition

10 Retinotopic maps in V1 Retinotopic mapping: locations on retina are mapped to cortex in orderly fashion. Note: more of visual cortex is dedicated to foveal vision Response in monkey primary visual cortex (V1) measured by radio-active tracers Stimulus pattern Tootell, R. B., M. S. Silverman, et al. Science (1982)

11 Stimulus Cortical Mapping: Left Hemisphere Cortical Mapping: Right Hemisphere

12 Revealing retinotopic maps with fMRI From: Geoff Boynton, SALK institute

13 Revealing retinotopic maps with fMRI From: Geoff Boynton, SALK institute

14 Single Cell Recording (usually in animal studies) Measure neural activity with probes. E.g., research by Hubel and Wiesel:

15 Hubel and Wiesel (1962) Studied LGN and visual cortex in the cat. Found cells with different receptive fields – different ways of responding to light in certain areas Cell 1 Cell 2 Cell 3 What are cells 1, 2, and 3 doing ? a)detecting edges b)detecting oriented bars c)detecting movement in particular direction d)detecting cat faces What are likely locations for cells 1, 2, and 3? a)LGN b)V1 (primary visual cortex) c)V5

16 Receptive Fields The receptive field (RF) of a neuron is the area of retina cells that trigger activity of that neuron On-off cells and off-on cells:Simple cells (bar detectors)

17 A wiring diagram for building orientation- sensitive cells out of on-off cells Hierarchical organization of the brain: by aggregating responses over several on-off cells, the brain can detect more complicated features (e.g. bars and edges)

18 Hierarchical Organization

19 What is this cell coding for? a) any face b) monkey face c) human face d) eyes e) hands Bruce, Desimone & Gross (1981) “spike train” : each individual line represents a neuron firing. The axis represents time

20 Mach Bands and Lateral Inhibition

21 Lateral Inhibition Lateral inhibition sets up competition between neurons so that if one neuron becomes adept at responding to a pattern, it inhibits other neurons from doing so. DEMO APPLETS: http://www.psychology.mcmaster.ca/4i03/demos/lateral-demo.html http://serendip.brynmawr.edu/bb/latinhib_app.html ++ -- - - - - - - ++ -- - - - - - - ++ -- - - - - - - ++ -- - - - - - - ++ -- - - - - - - Light: On-Off Cells with lateral inhibition: Response  Edge detection

22 Lateral Inhibition enhances edges

23 Craik-Cornsweet-O’Brien Illusion Left part of the picture seems to be darker than the right one. In fact they have the same brightness. The same image as above, but the edge in the middle is hidden. Left and right part of the image look to be equally dark How is this different from mach bands?

24 Another demo of the same effect

25 Sensory Binding Problem If spatially different areas are functionally specialized for processing visual attributes such as shape, color, orientation, and direction of motion…. then how does the brain then “bind” together the sensory attributes of an object to construct a unified perception of the object?  Binding Problem

26 Binding Problem

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