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Visual structure & Blind spot. Question 1 What do these devices have in common?

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Presentation on theme: "Visual structure & Blind spot. Question 1 What do these devices have in common?"— Presentation transcript:

1 Visual structure & Blind spot

2 Question 1 What do these devices have in common?

3 These devices make use of electromagnetic waves Capture electromagnetic waves and transform them into various forms.

4 What does the eye do?  Transducing light energy into electrical energy

5 Transduction  Light enters the eye  A photon hits the receptor  changes the shape of pigment molecules in the receptor  triggers massive chemical reactions  generate electrical signals in the receptor

6 Reflection of light What we see is a reflection of light. Different objects reflect different wavelengths, –  different objects show different colors

7 Photo receptors in the eye are geared to capture different wavelengths

8 Eye Photo receptors Two types of photo receptors – rod & cone

9 Photo receptors are facing away from the light source. The optic nerve carries neural information to this spot. What happens? –No receptors, no vision  blind spot

10 The distribution of cones and rods on the retina Cones are concentrated mainly on the fovea. There are no rods on the fovea. We move eyes to capture images on the fovea.

11 Question We don’t see an unseen gap. What we see is a continuous scene. How come?

12 Main Point by Durgin et al. The blind spot filling-in phenomenon is functionally similar to the perception of amodally occluded areas. (p. 137)

13 Zero-crossing Surface segmentation Mapping the 2D retinal data to the 3D environment.

14 1308 x 952. (0, 255)

15

16

17 Gaussian filtering Zero-crossing edge detection

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