Opponent Processes Lateral geniculate nucleus (LGN) has cells that are maximally stimulated by spots of light Visual pathway stops in LGN on the way from.

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Presentation transcript:

Opponent Processes Lateral geniculate nucleus (LGN) has cells that are maximally stimulated by spots of light Visual pathway stops in LGN on the way from retina to visual cortex LGN cells have receptive fields with center– surround organization Color-opponent cell: A neuron whose output is based on a difference between sets of cones In LGN there are color-opponent cells with center– surround organization

Opponent Processes Opponent color theory: The theory that perception of color is based on the output of three mechanisms, each of them based on an opponency between two colors: Red–green, blue–yellow, and black–white Some LGN cells are excited by L-cone onset in center, inhibited by M-cone onsets in their surround (and vice-versa) Red versus green Other cells are excited by S-cone onset in center, inhibited by (L + M)-cone onsets in their surround (and vice-versa)  Blue versus yellow

Opponent Processes Ewald Hering (1834–1918) noticed that some color combinations are legal while others are illegal We can have bluish green, reddish yellow (orange), or bluish red (purple) We cannot have reddish green or bluish yellow

Figure 5.13 Hue cancellation experiments

Opponent Processes We can use the hue cancellation paradigm to determine the wavelengths of unique hues Unique hue: Any of four colors that can be described with only a single color term: Red, yellow, green, blue Unique blue: A blue that has no red or green tint

Figure 5.14 Hue cancellations cross the neutral midpoint at unique blue, green, and yellow hues

Opponent Processes Afterimages: A visual image seen after a stimulus has been removed Negative afterimage: An afterimage whose polarity is the opposite of the original stimulus Light stimuli produce dark negative afterimages Colors are complementary. Red produces green afterimages and blue produces yellow afterimages (and vice-versa) This is a way to see opponent colors in action

The afterimage should have looked like this:

Opponent Processes LGN is not the end of color processing Color processing continues in visual cortex Achromatopsia: An inability to perceive colors that is caused by damage to the central nervous system

Des Everyone See Colors the Same Way? Does everyone see colors the same way?—Yes General agreement on colors Some variation due to age (lens turns yellow)

Does Everyone See Colors the Same Way? Does everyone see colors the same way?—No About 8% of male population, 0.5% of female population has some form of color vision deficiency: Color blindness

Does Everyone See Colors the Same Way? Several types of color-blind people: Deuteranope: Due to absence of M-cones Protanope: Due to absence of L-cones Tritanope: Due to absence of S-cones

Does Everyone See Colors the Same Way? Several types of color-blind people: (cont’d) Color-anomalous: Have two types of cones (typically L- and M-cones) which are so similar that they can’t make discriminations based on them Cone monochromat: Have only one cone type; truly color-blind Rod monochromat: Have no cones of any type; truly color-blind and badly visually impaired in bright light

Does Everyone See Colors the Same Way? Does everyone see colors the same way?—Maybe Various cultures describe color differently Cultural relativism: In sensation and perception, the idea that basic perceptual experiences (e.g., color perception) may be determined in part by the cultural environment

Figure 5.17 It is easier to remember which of two colors you have seen if the choices are categorically different

From the Color of Lights to a World of Color Unrelated color: A color that can be experienced in isolation Related color: A color, such as brown or gray, that is seen only in relation to other colors A “gray” patch in complete darkness appears white

From the Color of Lights to a World of Color Illuminant: The light that illuminates a surface Color constancy: The tendency of a surface to appear the same color under a fairly wide range of illuminants To achieve color constancy, we must discount the illuminant and determine what the true color of a surface is regardless of how it appears

Figure 5.18 The same surface illuminated by two different lights will generate two different patterns of activity in the S-, M-, and L-cones (Part 1)

Figure 5.18 The same surface illuminated by two different lights will generate two different patterns of activity in the S-, M-, and L-cones (Part 2)

Figure 5.19 This color constancy experiment was conducted by McCann, McKee, and Taylor (1)

Figure 5.19 This color constancy experiment was conducted by McCann, McKee, and Taylor (2)

From the Color of Lights to a World of Color Physical constraints make constancy possible: Intelligent guesses about the illuminant Assumptions about light sources Assumptions about surfaces

Figure 5.23 The experiment of Bloj, Kersten, and Hurlbert (1999)

From the Color of Lights to a World of Color Animals provide insight into color perception in humans Advertisements for bees to trade food for sex (for pollination) Colorful patterns on tropical fish and toucans provide sexual signals

Figure 5.28 Two ways to make photoreceptors with different spectral sensitivities

Figure 5.27 The colors of animals are often an advertisement to potential mates