Raquel Bujans

DKL Color Model

Research advisorDr. Cindy Grimm

Washington University in St. LouisMedia & Machines Lab

2Raquel Bujansrb3@cec.wustl.edu

Color Theory

How your eye sees light:

Light reflects off object Enters eye, retina Processed by brain

Physical process:

Rods Cones Double-opponent cells

Washington University in St. LouisMedia & Machines Lab

3Raquel Bujansrb3@cec.wustl.edu

Color Theory

Washington University in St. LouisMedia & Machines Lab

4Raquel Bujansrb3@cec.wustl.edu

Color Theory

Washington University in St. LouisMedia & Machines Lab

5Raquel Bujansrb3@cec.wustl.edu

ConesDaylight

See color

3 types: red, green, blue (not exact)

Middle of retina

Washington University in St. LouisMedia & Machines Lab

6Raquel Bujansrb3@cec.wustl.edu

Rods

Low light conditions

Black + white

Peripheral vision

More rods than cones

Washington University in St. LouisMedia & Machines Lab

7Raquel Bujansrb3@cec.wustl.edu

Double-Opponent

Circular

TypesRed – greenBlue – yellow

Make both colors seem brighter when next to each other (hard time seeing boundary)

Washington University in St. LouisMedia & Machines Lab

8Raquel Bujansrb3@cec.wustl.edu

Double-OpponentBlue-Yellow:

Washington University in St. LouisMedia & Machines Lab

9Raquel Bujansrb3@cec.wustl.edu

Double-Opponent

Red- Green:

Washington University in St. LouisMedia & Machines Lab

10Raquel Bujansrb3@cec.wustl.edu

Blind spot!

No rods / cones / double-opponent cells in one spot.

That where your optic nerve is!

Washington University in St. LouisMedia & Machines Lab

11Raquel Bujansrb3@cec.wustl.edu

Fun Tricks

http://www.psych.ucsb.edu/~rowe/SimultaneousContrast.html

http://www.psych.ucsb.edu/~rowe/SuccessiveColorContrast.html

Washington University in St. LouisMedia & Machines Lab

12Raquel Bujansrb3@cec.wustl.edu

Existing Color Models (RGB)

RGB: red, green, blueAdditive (all 3 together = white light)Based on additive primary colorsCan’t represent all visible colors TV, monitors

Washington University in St. LouisMedia & Machines Lab

13Raquel Bujansrb3@cec.wustl.edu

Existing Color Models (HSV)

HSV: hue, value, saturation

Hue means “color”

Value means “brightness”

Saturation means “vibrancy” or “purity”

More perceptually intuitive

Washington University in St. LouisMedia & Machines Lab

14Raquel Bujansrb3@cec.wustl.edu

Existing Color Models (HSV)

Washington University in St. LouisMedia & Machines Lab

15Raquel Bujansrb3@cec.wustl.edu

Existing Color Models (LUV)

LUV: luminance, chromacity

Tries to represent more colors than RGB

Can represent all visible colors

Designed to be more accurate

Washington University in St. LouisMedia & Machines Lab

16Raquel Bujansrb3@cec.wustl.edu

Existing Color Models (LUV)

Washington University in St. LouisMedia & Machines Lab

17Raquel Bujansrb3@cec.wustl.edu

New Model - DKL

DKL: red-green, blue-yellow, intensity

Reasons why:New methods for artistic control

Based directly off eye’s physical process of “seeing”

Washington University in St. LouisMedia & Machines Lab

18Raquel Bujansrb3@cec.wustl.edu

Why DKL is Better

Paint more warm/coolEx: paint sunrise sunsetEach color shifts differently

Ex: red blue VS. green blueEasy to change: adjust blue-yellow channel

• Control intensity• Intensity affects color• http://www.psych.ucsb.edu/~rowe/Bezold-Brucke.html

Washington University in St. LouisMedia & Machines Lab

19Raquel Bujansrb3@cec.wustl.edu

Why DKL is Better

In touch with the way we see light

Models behavior of cones, rods, and double opponents

Represents more colors

Color interaction more correct

Washington University in St. LouisMedia & Machines Lab

20Raquel Bujansrb3@cec.wustl.edu

Color Shift TablesRecent work: tables of colors shifted under different color models

Washington University in St. LouisMedia & Machines Lab

21Raquel Bujansrb3@cec.wustl.edu

Questions?

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