Illustrative Rendering of Segmented Anatomical Data
Zean Salah, Dirk Bartz, Wolfgang Straßer.
Symposium on Simulation and Visualization, Magdeburg,
2005. [BibTeX]
Illustrative Rendering Techniques for Visualization: Future of Visualization or Just Another Technique?
Dirk Bartz, Hans Hagen, Victoria Interrante, Kwan-Liu Ma, Bernhard Preim.
Proceedings of the IEEE Visualization 2005 October 23-28, Minneapolis, MN, USA (VIS'05), pp. 715--718, Los Alamitos, CA, USA, IEEE Computer Society,
2005. [BibTeX]
Illustrative Visualization
Ivan Viola, M. Eduard Gröller, Markus Hadwiger, Katja Bühler, Bernhard Preim, David Ebert.
Eurographics 2005 - Tutorials, The Eurographics Association and The Image Synthesis Group, Ming Lin and Celine Loscos, pp. 187--329,
2005. [BibTeX]
Illustrative Visualization of 3D City Models
Jürgen Döllner, Henrik Buchholz, Marc Nienhaus, Florian Kirsch.
Proceedings of SPIE - Visualization and Data Analysis (VDA 2005), San Jose, CA, USA,
2005. [BibTeX]
Image Segmentation for Stylized Non-Photorealistic Rendering and Animation
Alexander Kolliopoulos.
University of Toronto, April,
2005. [BibTeX]
Image-Based Stereoscopic Stylization
Efstathios Stavrakis, Michael Bleyer, Danijela Markovic, Margrit Gelautz.
IEEE International Conference on Image Processing, Vol. III, pp. 5-8, Genova, Italy, September,
2005. [BibTeX]
[PDF] [403.05KB]
Image-Guided Fracture
David Mould.
Graphics Interface (GI'05),
2005. [BibTeX]
Improved Boundary and Silhouette Enhancement in Volume Illustration
Qianqian Han, Yang Gao, Jizhou Sun, Jiawan Zhang.
Proceedings of the International Conference on Computer Graphics, Imaging and Visualization (CGIV'05), pp. 73--78, July,
2005. [BibTeX]
Improved line/edge detection and visual reconstruction
Author(s): João Rodrigues, J.M.Hans du Buf.
Proceedings: 13º Encontro Português de Computação Gráfica (13EPCG), pp. 179--184, Vila Real, Portugal, October 12-14,
2005.
[BibTeX]
Abstract:
Lines and edges provide important information for object categorization and recognition. In addition, one brightness model is based on a symbolic interpretation of the cortical multi-scale line/edge representation. In this paper we present an improved scheme for line/edge extraction from simple and complex cells and we illustrate the multi-scale representation. This representation can be used for visual reconstruction, but also for nonphotorealistic rendering. Together with keypoints and a new model of disparity estimation, a 3D wireframe representation of e.g. faces can be obtained in the future.
Interactive Material Replacement in Photographs
Steve Zelinka, Hui Fang, Michael Garland, John C. Hart.
Graphics Interface (GI'05),
2005. [BibTeX]