2009 | ||
---|---|---|
57 | EE | Johnson Chuang, Daniel Weiskopf, Torsten Möller: Energy Aware Color Sets. Comput. Graph. Forum 28(2): 203-211 (2009) |
2008 | ||
56 | EE | Tobias Schafhitzel, J. E. Vollrath, Joao Paulo Gois, Daniel Weiskopf, Antonio Castelo, Thomas Ertl: Topology-Preserving lambda2-based Vortex Core Line Detection for Flow Visualization. Comput. Graph. Forum 27(3): 1023-1030 (2008) |
55 | EE | Nicolas Cuntz, Andreas Kolb, Robert Strzodka, Daniel Weiskopf: Particle Level Set Advection for the Interactive Visualization of Unsteady 3D Flow. Comput. Graph. Forum 27(3): 719-726 (2008) |
54 | EE | Daniel Weiskopf: 2008 Eurographics Symposium on Parallel Graphics and Visualization. Comput. Graph. Forum 27(8): 2246 (2008) |
53 | EE | Sven Bachthaler, Daniel Weiskopf: Animation of Orthogonal Texture Patterns for Vector Field Visualization. IEEE Trans. Vis. Comput. Graph. 14(4): 741-755 (2008) |
52 | EE | Martin Falk, Daniel Weiskopf: Output-Sensitive 3D Line Integral Convolution. IEEE Trans. Vis. Comput. Graph. 14(4): 820-834 (2008) |
51 | EE | Ralf P. Botchen, Sven Bachthaler, Fabian Schick, Min Chen, Greg Mori, Daniel Weiskopf, Thomas Ertl: Action-Based Multifield Video Visualization. IEEE Trans. Vis. Comput. Graph. 14(4): 885-899 (2008) |
50 | EE | Guo-Shi Li, Xavier Tricoche, Daniel Weiskopf, Charles D. Hansen: Flow Charts: Visualization of Vector Fields on Arbitrary Surfaces. IEEE Trans. Vis. Comput. Graph. 14(5): 1067-1080 (2008) |
49 | EE | Sven Bachthaler, Daniel Weiskopf: Continuous Scatterplots. IEEE Trans. Vis. Comput. Graph. 14(6): 1428-1435 (2008) |
2007 | ||
48 | EE | Sven Bachthaler, Daniel Weiskopf: Animation of Orthogonal Texture-Based Vector Field Visualization. EuroVis 2007: 219-226 |
47 | EE | Martin Falk, Tobias Schafhitzel, Daniel Weiskopf, Thomas Ertl: Panorama maps with non-linear ray tracing. GRAPHITE 2007: 9-16 |
46 | EE | Tai Meng, Benjamin Smith, Alireza Entezari, Arthur E. Kirkpatrick, Daniel Weiskopf, Leila Kalantari, Torsten Möller: On visual quality of optimal 3D sampling and reconstruction. Graphics Interface 2007: 265-272 |
45 | EE | Tobias Schafhitzel, Eduardo Tejada, Daniel Weiskopf, Thomas Ertl: Point-based stream surfaces and path surfaces. Graphics Interface 2007: 289-296 |
44 | EE | Matthew Crider, Steven Bergner, Thomas N. Smyth, Torsten Möller, Melanie Tory, Arthur E. Kirkpatrick, Daniel Weiskopf: A mixing board interface for graphics and visualization applications. Graphics Interface 2007: 87-94 |
43 | EE | Daniel Weiskopf, Tobias Schafhitzel, Thomas Ertl: Texture-Based Visualization of Unsteady 3D Flow by Real-Time Advection and Volumetric Illumination. IEEE Trans. Vis. Comput. Graph. 13(3): 569-582 (2007) |
2006 | ||
42 | EE | Daniel Weiskopf, Helwig Hauser: Cycle shading for the assessment and visualization of shape in one and two codimensions. Graphics Interface 2006: 219-226 |
41 | EE | Daniel Weiskopf, Marc Borchers, Thomas Ertl, Martin Falk, Oliver Fechtig, Regine Frank, Frank Grave, Andreas King, Ute Kraus, Thomas Müller, Hans-Peter Nollert, Isabel Rica Mendez, Hanns Ruder, Tobias Schafhitzel, Sonja Schär, Corvin Zahn, Michael Zatloukal: Explanatory and Illustrative Visualization of Special and General Relativity. IEEE Trans. Vis. Comput. Graph. 12(4): 522-534 (2006) |
40 | EE | Min Chen, Ralf P. Botchen, Rudy Hashim, Daniel Weiskopf, Thomas Ertl, Ian Thornton: Visual Signatures in Video Visualization. IEEE Trans. Vis. Comput. Graph. 12(5): 1093-1100 (2006) |
39 | EE | Steven Bergner, Torsten Möller, Daniel Weiskopf, David J. Muraki: A Spectral Analysis of Function Composition and its Implications for Sampling in Direct Volume Visualization. IEEE Trans. Vis. Comput. Graph. 12(5): 1353-1360 (2006) |
2005 | ||
38 | EE | Daniel Weiskopf, Tobias Schafhitzel, Thomas Ertl: Real-Time Advection and Volumetric Illumination for the Visualization of 3D Unsteady Flow. EuroVis 2005: 13-20 |
37 | EE | Kelly P. Gaither, David S. Ebert, Daniel Weiskopf, Pat Hanrahan: The Visualization Process: The Path from Data to Insight. IEEE Visualization 2005: 118 |
36 | EE | Daniel Weiskopf, Marc Borchers, Thomas Ertl, Martin Falk, Oliver Fechtig, Regine Frank, Frank Grave, Andreas King, Ute Kraus, Thomas Müller, Hans-Peter Nollert, Isabel Rica Mendez, Hanns Ruder, Corvin Zahn, Michael Zatloukal, Tobias Schafhitzel, Sonja Schär: Visualization in the Einstein Year 2005: A Case Study on Explanatory and Illustrative Visualization of Relativity and Astrophysics. IEEE Visualization 2005: 74 |
35 | EE | Daniel Weiskopf, Frederik Schramm, Gordon Erlebacher, Thomas Ertl: Particle and Texture Based Spatiotemporal Visualization of Time-Dependent Vector Fields. IEEE Visualization 2005: 81 |
34 | EE | Ralf P. Botchen, Daniel Weiskopf: Texture-Based Visualization of Uncertainty in Flow Fields. IEEE Visualization 2005: 82 |
33 | Daniel Weiskopf, Ralf P. Botchen, Thomas Ertl: Interactive Visualization of Divergence in Unsteady Flow by Level-Set Dye Advection. SimVis 2005: 221-232 | |
32 | EE | Martin Rotard, Daniel Weiskopf, Thomas Ertl: A combined introductory course on human-computer interaction and computer graphics. Computers & Graphics 29(2): 267-272 (2005) |
31 | EE | Magnus Strengert, Marcelo Magallón, Daniel Weiskopf, Stefan Guthe, Thomas Ertl: Large volume visualization of compressed time-dependent datasets on GPU clusters. Parallel Computing 31(2): 205-219 (2005) |
2004 | ||
30 | EE | Daniel Weiskopf, Manfred Weiler, Thomas Ertl: Maintaining Constant Frame Rates in 3D Texture-Based Volume Rendering. Computer Graphics International 2004: 604-607 |
29 | Magnus Strengert, Marcelo Magallón, Daniel Weiskopf, Stefan Guthe, Thomas Ertl: Hierarchical Visualization and Compression of Large Volume Datasets Using GPU Clusters. EGPGV 2004: 41-48 | |
28 | Daniel Weiskopf, Thomas Ertl: A Hybrid Physical/Device-Space Approach for Spatio-Temporally Coherent Interactive Texture Advection on Curved Surfaces. Graphics Interface 2004: 263-270 | |
27 | EE | Daniel Weiskopf: On the Role of Color in the Perception of Motion in Animated Visualizations. IEEE Visualization 2004: 305-312 |
26 | EE | Robert S. Laramee, Daniel Weiskopf, Jürgen Schneider, Helwig Hauser: Investigating Swirl and Tumble Flow with a Comparison of Visualization Techniques. IEEE Visualization 2004: 51-58 |
25 | Mike Eissele, Daniel Weiskopf, Thomas Ertl: The G2-Buffer Framework. SimVis 2004: 287-298 | |
24 | EE | Mike Eissele, Daniel Weiskopf, Thomas Ertl: Frame-to-Frame Coherent Halftoning in Image Space. TPCG 2004: 188-195 |
23 | Joachim Diepstraten, Daniel Weiskopf, Martin Kraus, Thomas Ertl: Vragments and Raxels - Relocatability as an Extension to Programmable Rasterization Hardware. WSCG (Short Papers) 2004: 181-188 | |
22 | Daniel Weiskopf, Thomas Ertl: GPU-Based 3D Texture Advection for the Visualization of Unsteady Flow Fields. WSCG (Short Papers) 2004: 259-266 | |
21 | EE | Robert S. Laramee, Helwig Hauser, Helmut Doleisch, Benjamin Vrolijk, Frits H. Post, Daniel Weiskopf: The State of the Art in Flow Visualization: Dense and Texture-Based Techniques. Comput. Graph. Forum 23(2): 203-222 (2004) |
20 | EE | Daniel Weiskopf: Dye Advection without the Blur: A Level-Set Approach for Texture-Based Visualization of Unsteady Flow. Comput. Graph. Forum 23(3): 479-488 (2004) |
19 | EE | Daniel Weiskopf, Tobias Schafhitzel, Thomas Ertl: GPU-Based Nonlinear Ray Tracing. Comput. Graph. Forum 23(3): 625-634 (2004) |
18 | EE | Daniel Weiskopf, Gerik Scheuermann: Textur- und topologiebasierte Vektorfeldvisualisierung. it - Information Technology 46(3): 111-116 (2004) |
2003 | ||
17 | EE | Dirc Rose, Simon Stegmaier, Guido Reina, Daniel Weiskopf, Thomas Ertl: Non-invasive Adaptation of Black-box User Interfaces. AUIC 2003: 19-24 |
16 | Daniel Weiskopf, Gordon Erlebacher, Thomas Ertl: A Texture-Based Framework for Spacetime-Coherent Visualization of Time-Dependent Vector Fields. IEEE Visualization 2003: 107-114 | |
15 | Thomas Klein, Mike Eissele, Daniel Weiskopf, Thomas Ertl: Simulation, Modelling and Rendering of Incompressible Fluids in Real Time. VMV 2003: 365-373 | |
14 | Stefan Röttger, Stefan Guthe, Daniel Weiskopf, Thomas Ertl, Wolfgang Straßer: Smart Hardware-Accelerated Volume Rendering. VisSym 2003 | |
13 | EE | Joachim Diepstraten, Daniel Weiskopf, Thomas Ertl: Interactive Cutaway Illustrations. Comput. Graph. Forum 22(3): 523-532 (2003) |
12 | EE | Daniel Weiskopf, Klaus Engel, Thomas Ertl: Interactive Clipping Techniques for Texture-Based Volume Visualization and Volume Shading. IEEE Trans. Vis. Comput. Graph. 9(3): 298-312 (2003) |
2002 | ||
11 | EE | Daniel Weiskopf, Klaus Engel, Thomas Ertl: Volume Clipping via Per-Fragment Operations in Texture-Based Volume Visualization. IEEE Visualization 2002 |
10 | Daniel Weiskopf, Gordon Erlebacher, Matthias Hopf, Thomas Ertl: Hardware-Accelerated Langrangian-Eulerian Texture Advection for 2D Flow. VMV 2002: 77-84 | |
9 | EE | Joachim Diepstraten, Daniel Weiskopf, Thomas Ertl: Automatic Generation and Non-Photorealistic Rendering of 2+1D Minkowski Diagrams. WSCG 2002: 139-146 |
8 | EE | Joachim Diepstraten, Daniel Weiskopf, Thomas Ertl: Transparency in Interactive Technical Illustrations. Comput. Graph. Forum 21(3): (2002) |
2001 | ||
7 | EE | Daniel Weiskopf, Matthias Hopf, Thomas Ertl: Hardware-Accelerated Visualization of Time-Varying 2D and 3D Vector Fields by Texture Advection via Programmable Per-Pixel Operations. VMV 2001: 439-446 |
6 | EE | Daniel Kobras, Daniel Weiskopf, Hanns Ruder: Image Based Rendering and General Relativity. WSCG 2001: 130-137 |
2000 | ||
5 | EE | Daniel Weiskopf, Daniel Kobras, Hanns Ruder: Real-world relativity: image-based special relativistic visualization. IEEE Visualization 2000: 303-310 |
4 | EE | Daniel Weiskopf: Four-dimensional non-linear ray tracing as a visualization tool for gravitational physics. IEEE Visualization 2000: 445-448 |
3 | EE | Daniel Weiskopf: An Immersive Virtual Environment for Special Relativity. WSCG 2000 |
2 | Daniel Weiskopf, Ute Kraus, Hanns Ruder: Illumination and acceleration in the visualization of special relativity: a comment on fast rendering of relativistic objects. Journal of Visualization and Computer Animation 11(4): 185-195 (2000) | |
1999 | ||
1 | EE | Daniel Weiskopf, Ute Kraus, Hanns Ruder: Searchlight and Doppler effects in the visualization of special relativity: a corrected derivation of the transformation of radiance. ACM Trans. Graph. 18(3): 278-292 (1999) |