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Vision.

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Presentation on theme: "Vision."— Presentation transcript:

1 Vision

2 The Eye Schematic diagram of the vertebrate eye
Source: Wikimedia commons

3 Find blind spot of your right eye - cover left eye and move cursor around while staring at black circle

4 Human vs Octopus Source: Wikipedia

5 Rods, and Cones, and Nerve Cells in the Retina
light Rods and Cones Front (anterior) of the eye. Back (posterior) of the eye. Nerve cells are part of central nervous system. Source: Wikimedia commons image url:

6 Additive/Subtractive Color
We choose 3 primary colors that can be combined to produce all the visible colors: Animation: Additive primaries (Combining light): Subtractive primaries (combining paint, thus subtracting light): Cyan Yellow Magenta Red Green Blue CSC Computing with Images

7 Rods and Cones Rods: Cones: Black/white vision
Very sensitive to dim light Cones: Color vision Need brighter light

8 The Spectrum of Visible Light
Source: Wikipedia commons

9 ? Some questions: Why three primary colors?
If the visible spectrum consists of a continuous range of wavelengths, why should just three colors be special? Why not five? Why do colors form a circle, when the spectrum does not? ?

10 Trichromacy Monochromats: Dogs Dichromats: Horses
Three kinds of cone cells: L, M and S peak sensitivities in the long, medium and short wavelength parts of the spectrum respectively Other animals have more or fewer types of cones Monochromats: Dogs Dichromats: Horses Trichromats: Humans, other primates, but also many birds, and other animals, even some invertebrates! Tetrachromats: zebrafish turtles, most birds, and insects Pentachromats: Some birds and some insects, eg pigeons, butterflies

11 Opponent Model of Vision
In late 19th century Ewald Hering proposed a controversial theory to explain complementary colors – the opponent model of vision The opponent model was subsequently quantified by Hurvich and Jameson (1957) and later researchers who confirmed it using new physiological understanding of the eye Current view is that subsequent processing of the inputs from the three cone types (adding/subtracting) creates three signals: brightness, redness vs greenness (r/g), and  yellowness vs blueness (y/b). The 360o range of possible combinations of positive and negative r/g and y/b values creates the circular range of hue of the familiar colour wheel (Figure 3.2, 3.3). Source: David Briggs “The Dimensions of Color” website

12 Early evidence for Opponent Model
Afterimages Hering illusion we will create some of these in class

13 Color is Very Relative! Source:

14 Further reading David Hubel, "Eye, Brain, Vision" available online at -- online book - a good source of information about the eye and seeing from a clinical perspective David Briggs, "The dimensions of color" webpages - a set of webpages that give a great overview of color as it is perceived, from the artist's perspective eChalk optical illusions

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