Title :
Fast, High-Quality Line Antialiasing by Prefiltering with an Optimal Cubic Polynomial
Abstract :
Scan-converting lines for raster-based displays is a basic building block of many computer graphics tasks. While many fast line drawing algorithms are known, most produce thin and ´jagged´ lines due to aliasing. Wu´s algorithm includes a crude approximation of antialiasing, which still includes noticeable step edges. Even hardware multisampling cannot entirely eliminate aliasing. Instead, the proper solution is to remove high-frequency components by prefiltering the lines. We improve upon previous ad-hoc filters by deriving the optimal (in the sense of minimizing aliasing) cubic polynomial filter. When combined with our new, optimized variant of the Gupta-Sproull line drawing algorithm, this outperforms Wu´s fast approximation while delivering much higher-quality results.
Keywords :
computer graphics; polynomials; Gupta-Sproull line drawing algorithm; computer graphic; crude approximation; high quality line antialiasing; optimal cubic polynomial filter; prefiltering; raster based display; scan converting lines; Algorithm design and analysis; Approximation algorithms; Approximation methods; Kernel; Pixel; Polynomials; Table lookup; SIMD; antialiasing; line drawing; polynomial filter; pre-filtering;
Conference_Titel :
Image and Video Technology (PSIVT), 2010 Fourth Pacific-Rim Symposium on
Conference_Location :
Singapore
Print_ISBN :
978-1-4244-8890-2
DOI :
10.1109/PSIVT.2010.59
