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Chapter 2

# PSYB57H3 Chapter Notes - Chapter 2: Binocular Disparity, Random Dot Stereogram, Depth Perception

Department
Psychology
Course Code
PSYB57H3
Professor
George Cree
Chapter
2

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Midterm 2 Textbook Notes:
Chapter 5:
-Humans see range on electromagnetic spectrum from 400nm to 700nm.
-Color is not a physical characteristic but a product of the physical stimulus interacting with na
nervous system.
-Steps to color perception:
Color Detection:
-3 cone photoreceptors w/different photo pigment (different sensitivity to light of different
wavelengths). S-Cones (Short-wavelength cones peak at 420nm), M-Cones (Medium-
wavelength cones peak at 535, L-Cones (Long-wavelength cones peak at 565nm).
-Cones work at daylight levels (photopic), Rod works in dimmer light levels (scotopic).
Color Discrimination:
Problem of Univariance: A cone can only provide single type of information (neural firing rate),
where as we need it to correspond to 2 types of information, being amplitude and wavelength
corresponding to color and brightness.
-Problem of Univariance is reason for lack of color in dimly lit scenes, making it impossible to
discriminate colors under scotopic conditions.
Trichromatic Solution: Differences between wavelengths or mixtures of wavelengths are
detectable due to different types of cones (S, M, L).
Metamers: Mixtures of different wavelengths that look identical. (1. Mixing wavelengths does
not change physical wavelengths, the mixture is mental event no physical changes occur. 2. For a
mixture of red light and green light to look perfectly yellow, the red and green have to be
adjusted, whereas if not adjusted, the mixture will be greenish or reddish.)
-Light reaching the visual field is converted to 3 numbers by the three cone type, if numbers are
different from numbers in different patch, it can be discriminated, if not, it will result in
metamers.
-Thomas Young and Hermann von Helmholtz worked out 3-D nature of experience of color
(Trichromatic Theory AKA Young-Helmholtz Theory).
-Additive color mixture: Mixture of lights (taking wavelength(s) and adding it to another).
-Subtractive color mixture: Mixture of pigments (A and B) where A will absorb some
wavelengths and B will absorb some, leaving a result of a dark color such as brown. (ex. Color
filters)
-Pointillism: Method of painting used in late nineteenth century which used additive color
mixture (small dots and different textures of few colors).
Nervous system: To discriminate the color of the lights, the nervous system looks at the
difference in activities between the 3 cones. Signals of (L-M), [(L+M)-S], and (L+M).
[S Cones make small contribution to perception of brightness.]
Cone-Opponent Cells in Retina & LGN:
LGN: The lateral geniculate nucleus is in the thalamus which receives input from retinal
ganglion cells (maximally stimulated by spots of light), and has input and output connections to
the visual cortex.
-Some retinal and ganglion cells are stimulated by L-cones on its center and inhibited by M-
cones on its surround. (L-M) is a type of cone-opponent cell (a cell type that subtracts one type
of cone input from another)[other ex. [(M-L), (M+L)-S, S-(M+L)].
Color Appearance:
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Color space: 3D (Hue, Saturation, and Brightness) space based on outputs of 3 cone types, that
describes set of all colors.
Achromatic: Color result that will occur (when R, G, and B are equal) which lacks chromatic
component (black, white, or grey).
-The chromatic aspect of color, shade is Hue; The potency or strength of the hue is Saturation;
The physical intensity of light is known as Brightness.
Opponent color theory: Theory which states perception of color is based on 3 mechanisms, each
resulting from opponency between 2 colors (red vs. green, blue vs. yellow, white vs. black).
Unique Hues: Any of the 4 colors which can be described by single terms (red, yellow, green,
blue).
-Color opponent processes that support color appearance are likely to be found in the visual
cortex (since cells in LGN are cone opponent cells).
Double opponent cell- Found in visual cortex; cell which is excited by one cone/color type and
inhibited by the opponent cone/color & the adjacent region is inhibited by 1st input and excited
by 2nd input.
Single opponent cell- Conveys information about color of broad area (cone-opponent cell).
Achromatopsia- Inability to perceive colors due to damage to CNS (brain damage).
Afterimage- Visual image seen after the visual stimuli has been removed.
Adapting Stimulus- Stimulus whose removal produces a change in visual perception/sensitivity.
Negative Afterimage- An afterimage whose polarity is opposite to original stimuli (colors
complementary; ex. red produces green).
Neutral Point- Point at which opponent color mechanism is not producing any signals.
-Age turns lens of eye yellow over time
Color Blindness:
-Genes that code for M & L cones are in X chromosome, males only have 1 copy as opposed to
females with 2. Damage to one copy leaves males color blind as opposed to females will
perceive colors normally since they'd still have one undamaged.
-Factors include: type of cone being affected, type of defect (photopigment of cone is anomalous,
or missing entirely).
-Missing a cone type means they will see in 2D instead of 3D color.
Deuteranope- Individual with color blindness due to absence of M-cones (M - 560nm and L -
610nm lights will be classified the same for the person).
Protanope- Individual with color blindness due to absence of L-cones (will have different set of
color matches based on outputs of M and S cones).
Tritanope- Individual with color blindness due to absence of S-cones.
Color Anomalous- Color blind individuals who make discriminations of color that are
anomalous (typically 3 cone types but 2 are extremely similar which make them experience
world the same as individuals with only 2 cone types).
Cone Monochromat- Individual with color blindness and only one type of cone in retina.
Therefore only see 1D color space (shades of gray).
Rod Monochromat- Color blind individual missing all cones (difficulty seeing in daylight
conditions, poor acuity, lack of ability to discriminate colors).
Agnosia- Individual can see image but fail to recognize them due to brain damage.
Anomia- Individual can see and recognize image but fail to name them due to brain damage.
Cultural relativism- In sensation and perception, the basic perceptual experiences may be
determined in part by cultural environment (ex. each group free to make their own color space).
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Color Contrast- Color perception effect color of one region induces opponent color in
neighbouring region.
Color assimilation- Color perception effect where 2 colors bleed into each other, taking on some
chromatic quality of the other.
Unrelated color- Color that can be experienced in isolation.
Related Color- Color such as brown or gray seen only in relation to other colors (ex. gray patch
in complete darkness appears white).
Color Constancy- Surface color appear same under wide range of illuminants.
Illuminant- Light that illuminates a surface.
Spectral reflectance function- The % of particular wavelength reflected from a surface.
Spectral power distribution- Physical energy in a light as function of wavelength.
Reflectance- The % of light hitting surface and reflected but not absorbed into the surface
(typically a function of wavelength).
Chapter 6:
-Ability to perceive and interact with the structure of space is one of the fundamental goals of the
visual system.
Realism- Philosophical position arguing that the world is real to be able to sense.
Positivism- Philosophical position that argues that all we perceive is from the evidence of our
senses, therefore for all we know everything could be an elaborate hallucination.
Euclidean- Geometry rules of the world (ex. parallel lines remain parallel extended in space,
objects maintain same size and shape as moving around in space, internal angles of triangle
always add up to 180 degrees).
-How we see the world is reconstructed from two non-Euclidean inputs (two distinct retinal
images).
-Human visual field 190 degrees from left to right, 110 covered by both eyes, 60 up from center
of gaze and 80 degrees down.
Binocular (with 2 eyes) Summation: Combination of signals from both eyes increases
performance on tasks rather than signals from one eye alone.
Binocular Disparity- Difference between retinal images from both eyes, this disparity is what
provides a vivid perception of the 3D world, which cannot be achieved through monocular
vision (one eyed vision).
Stereopsis- Ability to use binocular disparity as a cue to depth perception.
Monocular Cues to 3D Spaces:
Monocular depth cue- Depth cue (info about 3d visual space) which is available when viewing
world with one eye.
Binocular depth cue- Depth cue that relies on information from both eyes (Stereopsis).
Occlusion- Depth cue to relative position of objects (one object obstructing view of another ex.
circle over corner of square shape).
Nonmetrical depth cue- Depth cue that provides info about relative depth but not magnitude
(front or behind object).
Metrical depth cue- Depth cue that provides quantitative info about distance in the 3D.
Projective Geometry- The geometry which describes transformations that occur when 3d world
is projected to 2d surface.
Relative size- Comparison of size between items w/o knowing absolute size of either items.
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