Optimal filtering for patterned displays

Displays with repeating patterns of colored subpixels gain spatial resolution by setting individual subpixels rather than by setting entire pixels. This paper describes optimal filtering that produces subpixel values from a high-resolution input image. The optimal filtering is based on an error metric inspired by psychophysical experiments. Minimizing the error metric yields a linear system of equations, which can be expressed as a set of filters. These filters provide the same quality of font display as standard anti-aliasing at a point size 25% smaller. This optimization forms the filter design framework for Microsoft's ClearType.

[1]  Brian A. Wandell,et al.  A spatial extension of CIELAB for digital color‐image reproduction , 1997 .

[2]  David L. Neuhoff,et al.  One-dimensional least-squares model-based halftoning , 1992, [Proceedings] ICASSP-92: 1992 IEEE International Conference on Acoustics, Speech, and Signal Processing.

[3]  Albert J. Ahumada,et al.  Principled halftoning based on human vision models , 1992, Electronic Imaging.

[4]  Charles A. Bouman,et al.  Optimized error diffusion for image display , 1992, J. Electronic Imaging.

[5]  C. Bouman,et al.  Optimized Error Diffusion for High Quality Image Display , 1992 .

[6]  B. Wandell Foundations of vision , 1995 .