Computer graphics: principles and practice (2nd ed.)
Computer graphics: principles and practice (2nd ed.)
How not to lie with visualization
Computers in Physics
Principles of Digital Image Synthesis
Principles of Digital Image Synthesis
The "Which Blair Project": a quick visual method for evaluating perceptual color maps
Proceedings of the conference on Visualization '01
Color Sequences for Univariate Maps: Theory, Experiments and Principles
IEEE Computer Graphics and Applications
An inexpensive scheme for calibration of a colour monitor in terms of CIE standard coordinates
SIGGRAPH '83 Proceedings of the 10th annual conference on Computer graphics and interactive techniques
A rule-based tool for assisting colormap selection
VIS '95 Proceedings of the 6th conference on Visualization '95
Color, change, and control for quantitative data display
VIS '92 Proceedings of the 3rd conference on Visualization '92
On the Role of Color in the Perception of Motion in Animated Visualizations
VIS '04 Proceedings of the conference on Visualization '04
SIGGRAPH '05 ACM SIGGRAPH 2005 Courses
Automatic perceptual color map generation for realistic volume visualization
Journal of Biomedical Informatics
Volume composition and evaluation using eye-tracking data
ACM Transactions on Applied Perception (TAP)
A new weaving technique for handling overlapping regions
Proceedings of the International Conference on Advanced Visual Interfaces
Technical Section: Using color in visualization: A survey
Computers and Graphics
Human-centered visualization environments
Human-centered visualization environments
Anaglyph stereo without ghosting
EGSR'11 Proceedings of the Twenty-second Eurographics conference on Rendering
Pointillist and glyph-based visualization of nanoparticles in formation
EUROVIS'05 Proceedings of the Seventh Joint Eurographics / IEEE VGTC conference on Visualization
Harmonic colormaps for volume visualization
SPBG'08 Proceedings of the Fifth Eurographics / IEEE VGTC conference on Point-Based Graphics
EuroVis'09 Proceedings of the 11th Eurographics / IEEE - VGTC conference on Visualization
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Most systems used for creating and displaying colormap-based visualizations are not photometrically calibrated. That is, the relationship between RGB input levels and perceived luminance is usually not known, due to variations in the monitor, hardware configuration, and the viewing environment. However, the luminance component of perceptually based colormaps should be controlled, due to the central role that luminance plays in our visual processing. We address this problem with a simple and effective method for performing luminance matching on an uncalibrated monitor. The method is akin to the minimally distinct border technique (a previous method of luminance matching used for measuring luminous efficiency), but our method relies on the brain's highly developed ability to distinguish human faces. We present a user study showing that our method produces equivalent results to the minimally distinct border technique, but with significantly improved precision. We demonstrate how results from our luminance matching method can be directly applied to create new univariate colormaps.