Bian, S., Maguire, G., Kokke, W., You, L. and Zhang, J. J., 2019. Efficient C2 Continuous Surface Creation Technique Based on Ordinary Differential Equation. Symmetry, 12 (1), 38.
Full text available as:
|
PDF (OPEN ACCESS ARTICLE)
symmetry-12-00038.pdf - Published Version Available under License Creative Commons Attribution. 4MB | |
Copyright to original material in this document is with the original owner(s). Access to this content through BURO is granted on condition that you use it only for research, scholarly or other non-commercial purposes. If you wish to use it for any other purposes, you must contact BU via BURO@bournemouth.ac.uk. Any third party copyright material in this document remains the property of its respective owner(s). BU grants no licence for further use of that third party material. |
DOI: 10.3390/sym12010038
Abstract
In order to reduce the data size and simplify the process of creating characters’ 3D models, a new and interactive ordinary differential equation (ODE)-based C2 continuous surface creation algorithm is introduced in this paper. With this approach, the creation of a three-dimensional surface is transformed into generating two boundary curves plus four control curves and solving a vector-valued sixth order ordinary differential equation subjected to boundary constraints consisting of boundary curves, and first and second partial derivatives at the boundary curves. Unlike the existing patch modeling approaches which require tedious and time-consuming manual operations to stitch two separate patches together to achieve continuity between two stitched patches, the proposed technique maintains the C2 continuity between adjacent surface patches naturally, which avoids manual stitching operations. Besides, compared with polygon surface modeling, our ODE C2 surface creation method can significantly reduce and compress the data size, deform the surface easily by simply changing the first and second partial derivatives, and shape control parameters instead of manipulating loads of polygon points.
Item Type: | Article |
---|---|
ISSN: | 2073-8994 |
Uncontrolled Keywords: | surface modelling; C2 continuity; physics-based; data size reduction; ordinary differential equation |
Group: | Faculty of Media & Communication |
ID Code: | 33885 |
Deposited By: | Symplectic RT2 |
Deposited On: | 21 Apr 2020 15:45 |
Last Modified: | 14 Mar 2022 14:21 |
Downloads
Downloads per month over past year
Repository Staff Only - |