Real-Time Nonphotorealistic Rendering
Lee Markosian, Michael A. Kowalski, Samuel J. Trychin, Lubomir D. Bourdev, Daniel Goldstein, John F. Hughes
Proceedings of SIGGRAPH 97, August 1997, pp. 415--420.
Abstract: Nonphotorealistic rendering (NPR) can help make comprehensible but simple pictures of complicated objects by employing an economy of line. But current nonphotorealistic rendering is primarily a batch process. This paper presents a real-time nonphotorealistic renderer that deliberately trades accuracy and detail for speed. Our renderer uses a method for determining visible lines and surfaces which is a modification of Appel's hidden-line algorithm, with improvements which are based on the topology of singular maps of a surface into the plane. The method we describe for determining visibility has the potential to be used in any NPR system that requires a description of visible lines or surfaces in the scene. The major contribution of this paper is thus to describe a tool which can significantly improve the performance of these systems. We demonstrate the system with several nonphotorealistic rendering styles, all of which operate on complex models at interactive frame rates.
Keyword(s): non-photorealistic rendering
@inproceedings{Markosian:1997:RNR,
author = {Lee Markosian and Michael A. Kowalski and Samuel J. Trychin and Lubomir D. Bourdev and Daniel Goldstein and John F. Hughes},
title = {Real-Time Nonphotorealistic Rendering},
booktitle = {Proceedings of SIGGRAPH 97},
pages = {415--420},
month = aug,
year = {1997},
}
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