A Shape Resolution Control of Textured Object Applying Tolerance Caused by Movement(<Special Section>Artificial Reality and Telexistence)
スポンサーリンク
概要
- 論文の詳細を見る
We propose a shape resolution control method applying a tolerance caused by movement to object's shape and texture in order to represent efficiently a textured object that has a detailed structure. It is generally difficult to perceive the error of shape or texture of the object that is moving. Our method applies this error as a tolerance. The efficient object's representation is realized by the shape resolution control that tolerates errors of contour shape and textured surface by the tolerance caused by movement and reduces object's data. It was shown better experimental results of processing time and of the quality of images in comparison with other methods. Thus, it was proved that the method applying the tolerance caused by movement to the object's shape and texture is effective in the representation of textured object that has a detailed structure.
- 社団法人電子情報通信学会の論文
- 2006-01-01
著者
-
ISHII Ikuo
Graduate School of Science and Technology, Niigata University
-
Ishii I
Faculty Of Engineering Niigata University
-
Ishii Ikuo
Graduate School Of Science And Technology Niigata University
-
Takahashi Akira
Nagaoka National College Of Technology
-
Wakatsuki Daisuke
Faculty Of Industrial Technology Tsukuba University Of Technology
-
Ishii Ikuo
Faculty of Engineering, Niigata University
関連論文
- A Camera Calibration Method Using Parallelogramatic Grid Points
- Image Contour Clustering by Vector Quantization on Multiscale Gradient Planes and Its Application to Image Coding(Special Section on Digital Signal Processing)
- A High Resolution 3D Shape Measuring Method Utilizing a Self-Calibration System
- DYNAMIC SHAPE RESOLUTION CONTROL FOR PARALLEL PROCESSING ADOPTING VISUAL POINT VOLUME(International Workshop on Advanced Image Technology 2006)
- A Shape Resolution Control of Textured Object Applying Tolerance Caused by Movement(Artificial Reality and Telexistence)
- A-16-7 An Acquiring and Modeling Method of 3-D Form of Trees for the Multi-scale Indication