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Announcements 4/9/12. Prayer HW 25 due on Tuesday HW 26 due on Wednesday (but it’s very likely Claira won’t pick it up until Thursday night. Shhh!). Frank & Ernest. Reading Quiz. How many types of cone cells are there in humans? 1 2 3 4 5. Reading Quiz. - PowerPoint PPT Presentation
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Announcements 4/9/12 Prayer HW 25 due on Tuesday HW 26 due on Wednesday (but it’s very
likely Claira won’t pick it up until Thursday night. Shhh!)
Frank & Ernest
Reading Quiz How many types of cone cells are there in
humans?a. 1b. 2c. 3d. 4e. 5
Reading Quiz The functions r(), g(), and b() are
called the:a. color adding functionsb. color displaying functionsc. color matching functionsd. color realizinge. color subtracting functions
The Goal
Visible Spectrum
“All the colors of the rainbow…” Where is brown??
What’s a “luminescence spectrum” that you might measure?
From Wikipedia, “Visible Spectrum”
Cone cells
“Short” “Medium” “Long”
From Wikipedia,“Color Vision”
Color blindness
tritanomaly – S cones mutated (rare) tritanopia – lacks S cones (<1% of males) deuteranopia – lacks M cones (1% of males) deuteranomaly – M cones mutated (6% of
males; 0.4% of females) protanomaly – L cones mutated (1% of males) protanopia – lacks L cones (don’t know %)
From Wikipedia, “Color Blindness”
Test for deuteranopiaTest for tritanopia
Primary Colors
How the primary song should go “Additive color mixing” – demos Subtractive colors - demo
From Wikipedia,“RGB Color Model”
Components of R, G, B
Plot 3 components in 3D “color space”
From Wikipedia,“RGB Color Model”
What are R, G, B?
The spectra of R, G, and B phosphors from a standard CRT (i.e. non LCD) computer monitor
Could also, e.g., have R = sharp peak at 635 nm, G = sharp peak at 532 nm, B = sharp peak at 447
From Wikipedia, “Primary Color”
A Problem
R = sharp 635 nm, G = sharp 532 nm, B = sharp 447 nm What happens if you want to get, say, orange = 580 nm.
Can you mix R, G and B to get this? 532 nm will excite some S! 580 nm alone will never excite S!
1920’s Experimentsred source = 700 nm green source = 546.1 nm blue source = 435.8 nm
From Wikipedia, “1931 Color Space” (also in P&W)
Important results: 1. Human eye response can (mostly)
be described by 3 parameters2. Human eye response is (mostly)
linear
to get 580 nm orange, need some “negative” blue
What is a “Color Space”?
How strong of r, g, and b, lights would you need to match a light that is not a delta function?
Compare: what would you get for the response of a detector that has, say, g-bar as its response curve?
1931 Color Matching Functions
From Wikipedia, “CIE 1931 Color Space”
Human eye response again
Properties of these functions: • all are positive• z-bar = very close to S cones, very close to previous b-bar• y-bar = matches intensity response of eye, very close to M cones• x-bar = chosen so that white is equal parts x-bar, y-bar, z-bar
1931 Color Matching Functions
( ) ( )X I x d ( ) ( )R I r d etc. etc.
Worked Example
X = Y = Z =
Normalize (because “color” should not depend on overall intensity) x = y = z =
