CS 131 - Digital Photography
Spring Quarter, 2012
Marc Levoy, Andrew Adams, Katie Dektar, and Nora Willett
The applets were designed by Marc Levoy at Stanford and built
by CURIS students Nora Willett and Katie Dektar, and PhD student Andrew Adams in the spring and
summer of 2009.
© 2011 Marc Levoy. Used by permission.
Explores the tradeoffs between aperture, exposure time and ISO.
Uses Gauss's ray tracing construction to show how thin lenses perform a 3D perspective transformation of object space into image space.
The relationship between object distance, image distance, and focal length, and the distinction between focusing and zooming.
The operation of zoom lenses, telephoto zoom lenses, and optically-compensated telephoto zoom lens.
Interactively demonstrates 1D continuous convolution and 2D discrete convolution. Don't miss the "custom" buttons!
Explore how some cameras (mostly SLRs) use phase detection to autofocus a picture.
Explore how other cameras (mostly point-and-shoots) use contrast detection to autofocus an image.
Explores the trichromatic theory of color vision and considers its implications for human perception, color photography, and computer display of color images.
Reenact Maxwell's color matching experiment to see how closely you can match the trichromatic matching functions for the given primaries.
Explores chromaticity diagrams and the meaning of the 2D gamut of perceivable colors.
Interactively shows the results of gamut mapping (both the primaries and the rendering intents) on the colors displayed in an image.
Demonstrates how images are projected from a plane to a cylinder to form a panorama.