スケッチ&ポスター
フルカンファレンス | 1日券 | ベーシックカンファレンス |
Level 3 – Lounge
展示時間:2009年12月17日(木)〜12月19日(土)毎日930am〜6pm
ポスターでは、コンピュータグラフィックスとインタラクティブ技術に関するアイデアで、まだ初期段階のもの、部分的なもの、あるいは未完成でも斬新なもの、を紹介しています。ポスター発表者によるプレゼンテーションの時間も設けられます。
ポスタープレゼンテーション:12月17日(木)130pm〜3pm
シーグラフアジア 2009展示ポスターカテゴリー:
Animation
Qualitative Evaluation of Quantitative Dance-Motion Data
In this method for automatically summarizing the qualitative trend in a group of quantitative dance-motion data, the motion features are first quantitatively extracted and then qualitatively categorized.
Takeshi Miura Akita University
A Sketching Interface for Region Matching in 2D Cartoon Coloring
With only a few strokes, users of this sketch-based interface for effectively coloring 2D cartoon animations can color multiple frames more easily than with point-and-click methods.
Pablo Garcia Trigo The University of Tokyo Henry Johan Nanyang Technological University Takashi Imagire Tomoyuki Nishita The University of Tokyo
The Squash-and-Stretch Filter for Character Animation
A new way of superimposing non-rigid squash-and-stretch effects on the motion of a rigid linkage by applying a time-shift filter to position the data of each joint individually.
Ji-Yong Kwon In-Kwon Lee Yonsei University
A Deformable Model of Soap Film That Considers Physical Properties
A deformable model of soap film that considers its physical properties and discrete differential geometry.
Min Ki Park Gwangju Institute of Science and Technology
Real-Time Two-Way Coupling of Fluids to Deformable Bodies Using a Particle Method on GPU
This two-way coupling method between fluid and deformable bodies uses a particle method to conserve the momentum of the coupled system and increase its stability.
Kazuhiko Yamamoto Kyushu University
Visual Simulation of Solar Prominence Based on Magnetohydrodynamics
A new method for visual simulation of plasma fluids such as solar prominence. The method solves the magnetohydrodynamics equations efficiently and is fully physically based.
Tomokazu Ishikawa Yonghao Yue Yoshinori Dobashi Hokkaido University Tomoyuki Nishita The University of Tokyo
Visual Simulation of Avalanches Using Layered Structure
This method for simulating the motion of an avalanche accounts for its layered structure and reproduces characteristic avalanche phenomena.
Yusuke Tsuda Tomoyuki Nishita The University of Tokyo Yoshinori Dobashi Hokkaido University Yonghao Yue The University of Tokyo