What Newton Found (and
everyone believed)
• White light can be split into all wavelengths by a
prism
Color
Theories
of Vision
Color Vision
Wavelength Input
Cone
“Blue”
“Green”
“Red”
Signal to Brain
Blue
Color
Theories
of Vision
Color Vision
Wavelength Input
Cone
Signal to Brain
“Blue”
“Green”
“Red”
Green
Color
Theories
of Vision
Color Vision
Wavelength Input
Cone
Signal to Brain
“Blue”
“Green”
“Red”
Red
Color
Theories
of Vision
Color Vision
Wavelength Input
Cone
Signal to Brain
“Blue”
“Green”
Equal Parts
Red and
Green =
Yellow
“Red”
Color
Theories
of Vision
Color Vision
Wavelength Input
Cone
Signal to Brain
“Blue”
“Green”
Equal Parts
Red and
Green =
Yellow
“Red”
Color
Theories
of Vision
Color Vision
Wavelength Input
Cone
Signal to Brain
“Blue”
“Green”
Equal Parts
Red and
Green =
Yellow
“Red”
What Newton Found (and
everyone believed)
• White light can be split into all wavelengths by a
prism
• According to previous theories: two wavelengths
combine to yield intermediate color and no others
Red + Green = YELLOW
What twist did Land do to this
paradigm that confounds the
conventional understanding of
color mixing?
What Land found:
• Two bands (colors) of the spectrum
recombine to produce all the possible colors
– provided the appropriate relative amount of each
wavelength is projected
transparency slides
How did Land project the
“appropriate” ratio of
wavelengths?
Short- and Long- “record”
Camera
• Capture two greyscale images of the
scene using filters
that allow only the
wavelengths you will
project
film
“Long” filter
Object
“short” filter
Projector
“Long” filter
“short” filter
Image
Camera splits image into
maps of “longer” and “shorter”
wavelengths
long
filter
medium filter
Projector combines “longer” and “shorter” wavelengths
using the maps to get the appropriate amounts of each
long/“red”
light
medium/
“green” light
Viewer perceives
desaturated hues
including blues
What is Land’s interpretation?
How do we perceive color?
Land’s interpretation:
• perception of color is a weighing of the ratio
of shorter and longer wavelengths
Land’s interpretation:
• perception of
color is a
weighing of
the ratio of
shorter and
longer
wavelengths
Why would the visual system
have evolved this way?
Why would the visual system
have evolved this way?
• Hint: “Within broad limits, the actual values of the
wavelengths make no difference, nor does the
over-all available brightness of each”
What is color for?
• What is color vision used for?
What is color for?
• What is color vision used for?
– Identification - what is this thing?
– Discrimination - what other things is this like?
– Communication - indicates this thing to others
What is color for?
• What is color vision used for?
– Identification - what is this thing?
– Discrimination - what other things is this like?
– Communication - indicates this thing to others
• But in each case color refers not to the
illuminating light, but to the surface of the
object itself
What is color for?
• What is color vision used for?
– Identification - what is this thing?
– Discrimination - what other things is this like?
– Communication - indicates this thing to others
• But in each case color refers not to the
illuminating light, but to the surface of the
object itself
Does the color of an object remain constant
under different lighting conditions?
Color Constancy
• The “color” of objects is independent of the
ambient light
– yellow bananas and green leaves look yellow and
green regardless of whether they are viewed in
direct sunlight or by the light of a fire
Next Time
• ATTENTION!