2007 |
20 | | George Bebis,
Richard D. Boyle,
Bahram Parvin,
Darko Koracin,
Nikos Paragios,
Tanveer Fathima Syeda-Mahmood,
Tao Ju,
Zicheng Liu,
Sabine Coquillart,
Carolina Cruz-Neira,
Torsten Müller,
Thomas Malzbender:
Advances in Visual Computing, Third International Symposium, ISVC 2007, Lake Tahoe, NV, USA, November 26-28, 2007, Proceedings, Part I
Springer 2007 |
19 | | George Bebis,
Richard D. Boyle,
Bahram Parvin,
Darko Koracin,
Nikos Paragios,
Tanveer Fathima Syeda-Mahmood,
Tao Ju,
Zicheng Liu,
Sabine Coquillart,
Carolina Cruz-Neira,
Torsten Müller,
Thomas Malzbender:
Advances in Visual Computing, Third International Symposium, ISVC 2007, Lake Tahoe, NV, USA, November 26-28, 2007, Proceedings, Part II
Springer 2007 |
2006 |
18 | | George Bebis,
Richard Boyle,
Bahram Parvin,
Darko Koracin,
Paolo Remagnino,
Ara V. Nefian,
Meenakshisundaram Gopi,
Valerio Pascucci,
Jiri Zara,
Jose Molineros,
Holger Theisel,
Thomas Malzbender:
Advances in Visual Computing, Second International Symposium, ISVC 2006, Lake Tahoe, NV, USA, November 6-8, 2006 Proceedings, Part I
Springer 2006 |
17 | | George Bebis,
Richard Boyle,
Bahram Parvin,
Darko Koracin,
Paolo Remagnino,
Ara V. Nefian,
Meenakshisundaram Gopi,
Valerio Pascucci,
Jiri Zara,
Jose Molineros,
Holger Theisel,
Thomas Malzbender:
Advances in Visual Computing, Second International Symposium, ISVC 2006 Lake Tahoe, NV, USA, November 6-8, 2006. Proceedings, Part II
Springer 2006 |
2005 |
16 | EE | Alberto Bartesaghi,
Guillermo Sapiro,
Thomas Malzbender,
Dan Gelb:
Three-dimensional shape rendering from multiple images.
Graphical Models 67(4): 332-346 (2005) |
15 | EE | H. Harlyn Baker,
Nina T. Bhatti,
Donald Tanguay,
Irwin Sobel,
Dan Gelb,
Michael E. Goss,
W. Bruce Culbertson,
Thomas Malzbender:
Understanding performance in coliseum, an immersive videoconferencing system.
TOMCCAP 1(2): 190-210 (2005) |
2004 |
14 | EE | Alberto Bartesaghi,
Guillermo Sapiro,
Thomas Malzbender,
Dan Gelb:
Non-photorealistic rendering from multiple images.
ICIP 2004: 2403-2406 |
13 | | Thomas Malzbender:
Enhancement of Shape Perception by Surface Reflectance Transformation.
VMV 2004: 183 |
12 | EE | Gregory G. Slabaugh,
W. Bruce Culbertson,
Thomas Malzbender,
Mark R. Stevens,
Ronald W. Schafer:
Methods for Volumetric Reconstruction of Visual Scenes.
International Journal of Computer Vision 57(3): 179-199 (2004) |
2003 |
11 | EE | H. Harlyn Baker,
Nina T. Bhatti,
Donald Tanguay,
Irwin Sobel,
Dan Gelb,
Michael E. Goss,
John MacCormick,
Kei Yuasa,
W. Bruce Culbertson,
Thomas Malzbender:
Computation and performance issues In coliseum: an immersive videoconferencing system.
ACM Multimedia 2003: 470-479 |
2002 |
10 | EE | Mark R. Stevens,
W. Bruce Culbertson,
Thomas Malzbender:
A Histogram-Based Color Consistency Test for Voxel Coloring.
ICPR (4) 2002: 118-121 |
2001 |
9 | EE | Thomas Malzbender,
Dan Gelb,
Hans J. Wolters:
Polynomial texture maps.
SIGGRAPH 2001: 519-528 |
8 | EE | Gregory G. Slabaugh,
W. Bruce Culbertson,
Thomas Malzbender,
Ronald W. Schafer:
A Survey of Methods for Volumetric Scene Reconstruction from Photographs.
Volume Graphics 2001 |
2000 |
7 | EE | Gregory G. Slabaugh,
Thomas Malzbender,
W. Bruce Culbertson:
Volumetric Warping for Voxel Coloring on an Infinite Domain.
SMILE 2000: 109-123 |
1999 |
6 | EE | W. Bruce Culbertson,
Thomas Malzbender,
Gregory G. Slabaugh:
Generalized Voxel Coloring.
Workshop on Vision Algorithms 1999: 100-115 |
1998 |
5 | EE | Craig M. Wittenbrink,
Thomas Malzbender,
Michael E. Goss:
Opacity-Weighted Color Interpolation, for Volume Sampling.
VVS 1998: 135-142 |
1997 |
4 | | Frederick L. Kitson,
Thomas Malzbender,
Vasudev Bhaskaran:
Opportunities for Visual Computing in Healthcare.
IEEE MultiMedia 4(2): 46-57 (1997) |
1996 |
3 | EE | Mark J. Bentum,
Barthold B. A. Lichtenbelt,
Thomas Malzbender:
Frequency Analysis of Gradient Estimators in Volume Rendering.
IEEE Trans. Vis. Comput. Graph. 2(3): 242-254 (1996) |
1993 |
2 | EE | Thomas Malzbender:
Fourier Volume Rendering.
ACM Trans. Graph. 12(3): 233-250 (1993) |
1991 |
1 | | Thomas Malzbender,
Frederick L. Kitson:
A Fourier Technique for Volume Rendering.
Focus on Scientific Visualization 1991: 305-316 |