Hideki Todo

TL;DR: A set of simple stylized shading algorithms that allow the user to freely add localized light and shade to a model in a manner that is consistent and seamlessly integrated with conventional lighting techniques are proposed.

TL;DR: A statistical-prior algorithm is described that “learns” from previous animation and allows rapid creation of expressive animation in a given style and is presented as a software tool.

TL;DR: The combination of X-ray CT and a digital camera makes it possible to successfully digitize specimens with complicated 3D structures accurately and allows us to browse both surface colors and internal structures.

TL;DR: This shading model addresses the issues of the original Lit-Sphere approach, and allows artists to use a light source to obtain dynamic diffuse and specular shading, and is easy to implement on GPU, so that the system allows interactive shading design.

TL;DR: This paper introduces an image-based material transfer framework which only requires single input and reference images as an ordinary color transfer method and focuses on “subbands,” which represent multi-scale image structures, and finds that the correlation between color distribution and subbands is a key feature for reproducing the appearances of translucent materials.