1. Image-Based Color Ink Diffusion Rendering
- Author
-
Ren-Jie Wang and Chung-Ming Wang
- Subjects
Paper ,Computer science ,Feature extraction ,ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION ,Color ,Luminance ,Rendering (computer graphics) ,Diffusion ,User-Computer Interface ,Pigment ,Image texture ,Image Interpretation, Computer-Assisted ,Computer Graphics ,Computer Simulation ,Computer vision ,Coloring Agents ,ComputingMethodologies_COMPUTERGRAPHICS ,business.industry ,Color image ,Image segmentation ,Computer Graphics and Computer-Aided Design ,Models, Chemical ,visual_art ,Color mixing ,Signal Processing ,visual_art.visual_art_medium ,Ink ,Paintings ,Computer Vision and Pattern Recognition ,Artificial intelligence ,business ,Algorithms ,Software ,Texture synthesis - Abstract
This paper proposes an image-based painterly rendering algorithm for automatically synthesizing an image with color ink diffusion. We suggest a mathematical model with a physical base to simulate the phenomenon of color colloidal ink diffusing into absorbent paper. Our algorithm contains three main parts: a feature extraction phase, a Kubelka-Munk (KM) color mixing phase, and a color ink diffusion synthesis phase. In the feature extraction phase, the information of the reference image is simplified by luminance division and color segmentation. In the color mixing phase, the KM theory is employed to approximate the result when one pigment is painted upon another pigment layer. Then, in the color ink diffusion synthesis phase, the physically-based model that we propose is employed to simulate the result of color ink diffusion in absorbent paper using a texture synthesis technique. Our image-based ink diffusing rendering (IBCIDR) algorithm eliminates the drawback of conventional Chinese ink simulations, which are limited to the black ink domain, and our approach demonstrates that, without using any strokes, a color image can be automatically converted to the diffused ink style with a visually pleasing appearance.
- Published
- 2007