.
Combining Silhouettes, Surface, and Volume Rendering for Surgery Education and Planning
Christian Tietjen, Tobias Isenberg, Bernhard Preim.
Eurographics / IEEE VGTC Symposium on Visualization (EUROVIS 2005), pp. 303--310, Leeds, UK, June 1-3,
2005. [BibTeX]
Curvature- and Model-Based Surface Hatching of Anatomical Structures Derived from Clinical Volume Datasets
Rocco Gasteiger, Christian Tietjen, Alexandra Baer, Bernhard Preim.
Proceedings of Smart Graphics, pp. 255--262,
2008. [BibTeX]
Enhancing Slice-based Visualizations of Medical Volume Data
Christian Tietjen, Björn Meyer, Stefan Schlechtweg, Bernhard Preim, Ilka Hertel, Gero Strauß.
IEEE/Eurographics Symposium on Visualization (EUROVIS'06), pp. 123-130, IEEE,
2006. [BibTeX]
GPU-based smart visibility techniques for tumor surgery planning
Christoph Kubisch, Christian Tietjen, Bernhard Preim.
International Journal of Computer Assisted Radiology and Surgery, Vol. 5, No. 6, pp. 667--678,
2010. [BibTeX]
Hardware-Accelerated Illustrative Medical Surface Visualization with Extended Shading Maps
Christian Tietjen, Roland Pfisterer, Alexandra Baer, Rocco Gasteiger, Bernhard Preim.
Proceedings of the 9th International Symposium on Smart Graphics (SG'08), pp. 166--167, Springer-Verlag,
2008. [BibTeX]
Hardware-accelerated Stippling of Surfaces derived from Medical Volume Data
Alexandra Baer, Christian Tietjen, Ragnar Bade, Bernhard Preim.
Eurographics/IEEE-VGTC Symposium on Visualization, pp. 235--242,
2007. [BibTeX]
How to Render Frames and Influence People
Thomas Strothotte, Bernhard Preim, Andreas Raab, Jutta Schumann, David R. Forsey.
Computer Graphics Forum, Vol. 13, No. 3, pp. 455--466,
1994. [BibTeX]
Illustrative Focus+Context Approaches in Interactive Volume Visualization
Stefan Bruckner, M. Eduard Gröller, Klaus Mueller, Bernhard Preim, Deborah Silver.
Scientific Visualization: Advanced Concepts, Schloss Dagstuhl--Leibniz-Zentrum fuer Informatik, Hans Hagen, Vol. 1, Dagstuhl Follow-Ups, 10, pp. 136--162, Dagstuhl, Germany,
2010. [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
Author(s): Ivan Viola, M. Eduard Gröller, Markus Hadwiger, Katja Bühler, Bernhard Preim, David Ebert.
In Collection: Eurographics 2005 - Tutorials, The Eurographics Association and The Image Synthesis Group, Ming Lin and Celine Loscos, pp. 187--329,
2005.
[BibTeX] 
Abstract:
The tutorial presents state-of-the-art visualization techniques inspired by traditional technical and medical illustrations. Such techniques exploit the perception of the human visual system and provide effective visual abstractions to make the visualization clearly understandable. Visual emphasis and abstraction has been used for expressive presentation from prehistoric paintings to nowadays scientific and medical illustrations. Many of the expressive techniques used in art are adopted in computer graphics, and are denoted as illustrative or non-photorealistic rendering. Different stroke techniques, or brush properties express a particular level of abstraction. Feature emphasis or feature suppression is achieved by combining different abstraction levels in illustrative rendering. Challenges in visualization research are very large data visualization as well as multi-dimensional data visualization. To effectively convey the most important visual information there is a significant need for visual abstraction. For less relevant information the dedicated image space is reduced to enhance more prominent features. The discussed techniques in the context of scientific visualization are based on iso-surfaces and volume rendering. Apart from visual abstraction, i.e., illustrative representation, the visibility of prominent features can be achieved by illustrative visualization techniques such as cut-away views or ghosted views. The structures that occlude the most prominent information are suppressed in order to clearly see more interesting parts. Another smart way to provide information on the data is using exploded views or other types of deformation. Illustrative visualization is demonstrated via application-specific tasks in medical visualization. An important aspect as compared to traditional medical illustrations is the interactivity and real-time manipulation of the acquired patient data. This can be very useful in anatomy education. Another application area is surgical planning which is demonstrated with two case studies: neck dissection and liver surgery planning.