A Painterly Approach to Human Skin
Peter-Pike J. Sloan, Bruce Gooch, Bill Martin, Amy A. Gooch, Louise Bell.
Short Research paper,
2001. [BibTeX]
ActiveInk
Hiroaki Tobita, Jun Rekimoto.
Eurographics 2003, Short Presentation,
2003. [BibTeX]
Adventures in Non-photorealism: Creating a Painterly Renderer
Mark Fashing.
Honors Thesis, College of William and Mary, May,
2001. [BibTeX]
An Investigation into Real-time Automated Painterly Video Techniques
Mark Collier.
B.Sc. Dissertation, University of Bath, May,
2005. [BibTeX]
Animated Teleconferencing: Video Driven Facial Animation
Author(s): Ian Buck.
Misc: B.S.E. Undergraduate Thesis, June,
1999.
[BibTeX]
Abstract:
This work presents a method of using hand-drawn art for an animated teleconferencing system. This low bandwidth solution to teleconferencing uses a computer generated animated character to represent the expression of a human user as seen by a desktop camera. Using hand-drawn art provides many advantages over traditional teleconferencing, including privacy, bandwidth, and entertainment value. The framework of the system is divided into three components: the video tracker which is able to locate, in real-time, features on a human face from live video; an expression mapper which is able to intelligently select which artworks should be used to represent the current expression; and a rendering engine which is able to morph in real-time the artworks to produce a final image.
Digital Paint Systems: Historical Overview
Alvy Ray Smith.
Tech Memo 14, May 30,
1997. [BibTeX]
Drawing Skeletons
Tom Brunet, Nina Amenta, Thore Karlsen.
2002. [BibTeX]
Free-form Video Tooning Deformation
Jue Wang, Ying-Qing Xu, Michael F. Cohen.
Poster on SCA2004,
2004. [BibTeX]
Image-based processing of game method streams and depth-buffered video for non-photorealistic rendering
Olivier Giroux, Alexandre Denault.
2004. [BibTeX]
Line Drawings from 3D Models
Szymon Rusinkiewicz, Doug DeCarlo, Adam Finkelstein.
Course Notes, SIGGRAPH 2005 Course 7, July,
2005. [BibTeX]