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ORCID11th IEEE Visualization 2000: Salt Lake City, Utah, USA
- 11th IEEE Visualization Conference, IEEE Vis 2000, Salt Lake City, UT, USA, October 8-13, 2000, Proceedings. IEEE Computer Society and ACM 2000, ISBN 0-7803-6478-3
- Stanislav L. Stoev, Wolfgang Straßer:
Extracting regions of interest applying a local watershed transformation. 21-28 - Rami Hietala, Jarkko Oikarinen:
A visibility determination algorithm for interactive virtual endoscopy. 29-36 - Sarang Lakare, Ming Wan, Mie Sato, Arie E. Kaufman:
3D digital cleansing using segmentation rays. 37-44 - Ingmar Bitter, Mie Sato, Michael A. Bender, Kevin T. McDonnell, Arie E. Kaufman, Ming Wan:
CEASAR: a smooth, accurate and robust centerline extraction algorithm. 45-52 - Matthew C. Humphrey:
Creating reusable visualizations with the relational visualization notation. 53-60 - Thomas C. Sprenger, R. Brunella, Markus H. Gross:
H-BLOB: a hierarchical visual clustering method using implicit surfaces. 61-68 - T. J. Jankun-Kelly, Kwan-Liu Ma:
A spreadsheet interface for visualization exploration. 69-76 - Andrej Cedilnik, Penny Rheingans:
Procedural annotation of uncertain information. 77-83 - Paolo Cignoni, D. Constanza, Claudio Montani, Claudio Rocchini, Roberto Scopigno:
Simplification of Tetrahedral meshes with accurate error evaluation. 85-92 - Tom Roxborough, Gregory M. Nielson:
Tetrahedron based, least squares, progressive volume models with application to freehand ultrasound data. 93-100 - Chuan-Kai Yang, Tulika Mitra, Tzi-cker Chiueh:
On-the-Fly rendering of losslessly compressed irregular volume data. 101-108 - Stefan Röttger, Martin Kraus, Thomas Ertl:
Hardware-accelerated volume and isosurface rendering based on cell-projection. 109-116 - Aditi Majumder, Zhu He, Herman Towles, Greg Welch
:
Achieving color uniformity across multi-projector displays. 117-124 - Yuqun Chen, Douglas W. Clark, Adam Finkelstein, Timothy C. Housel, Kai Li:
Automatic alignment of high-resolution multi-projector display using an un-calibrated camera. 125-130 - Dale A. Lawrence, Christopher D. Lee, Lucy Y. Pao, Roman Y. Novoselov:
Shock and vortex visualization using a combined visual/Haptic interface. 131-137 - Arthur D. Gregory, Ajith Mascarenhas, Stephen A. Ehmann, Ming C. Lin, Dinesh Manocha:
Six degree-of-freedom haptic display of polygonal models. 139-146 - Rüdiger Westermann, Christopher R. Johnson, Thomas Ertl:
A level-set method for flow visualization. 147-154 - Bruno Jobard, Gordon Erlebacher, M. Yousuff Hussaini:
Hardware-accelerated texture advection for unsteady flow visualization. 155-162 - Vivek Verma, David L. Kao, Alex Pang:
A flow-guided streamline seeding strategy. 163-170 - Randy K. Scoggins, Robert J. Moorhead, Raghu Machiraju:
Enabling level-of-detail matching for exterior scene synthesis. 171-178 - Helen H. Hu, Amy Gooch, William B. Thompson, Brian E. Smits, John J. Rieser, Peter Shirley:
Visual cues for imminent object contact in realistic virtual environment. 179-185 - Shigeru Muraki, Toshiharu Nakai, Yasuyo Kita:
Basic research for coloring multichannel MRI data. 187-194 - David S. Ebert, Penny Rheingans:
Volume illustration: non-photorealistic rendering of volume models. 195-202 - Steve M. F. Treavett, Min Chen:
Pen-and-Ink rendering in volume visualisation. 203-210 - Helwig Hauser, Lukas Mroz, Gian Italo Bischi, M. Eduard Gröller:
Two-level volume rendering - fusing MIP and DVR. 211-218 - Jian Huang, Roger Crawfis, Naeem Shareef, Klaus Mueller:
FastSplats: optimized splatting on rectilinear grids. 219-226 - Jürgen Döllner, Konstantin Baumann, Klaus H. Hinrichs:
Texturing techniques for terrain visualization. 227-234 - Frank Suits, James T. Klosowski, William P. Horn, Gérard Lecina:
Simplification of surface annotations. 235-242 - Adam Hunter, Jonathan D. Cohen:
Uniform frequency images: adding geometry to images to produce space-efficient textures. 243-250 - Huamin Qu, Ming Wan, Jiafa Qin, Arie E. Kaufman:
Image based rendering with stable frame rates. 251-258 - Thomas Gerstner, Renato Pajarola:
Topology preserving and controlled topology simplifying multiresolution isosurface extraction. 259-266 - Praveen Bhaniramka, Rephael Wenger, Roger Crawfis:
Isosurfacing in higher dimensions. 267-273 - Zoë J. Wood, Peter Schröder, David E. Breen, Mathieu Desbrun:
Semi-regular mesh extraction from volumes. 275-282 - David M. Weinstein:
Scanline surfacing: building separating surfaces from planar contours. 283-289 - Helen Wright, Ken Brodlie, Tim David:
Navigating high-dimensional spaces to support design steering. 291-296 - R. R. Johnson:
Visualization of multi-dimensional data with vector-fusion. 297-302 - Daniel Weiskopf, Daniel Kobras, Hanns Ruder:
Real-world relativity: image-based special relativistic visualization. 303-310 - Ingrid Hotz, Hans Hagen:
Visualizing geodesics. 311-318 - Olivier Devillers, Pierre-Marie Gandoin:
Geometric compression for interactive transmission. 319-326 - Wei-Chao Chen, Herman Towles, Lars S. Nyland, Greg Welch, Henry Fuchs:
Toward a compelling sensation of telepresence: demonstrating a portal to a distant (static) office. 327-333 - Jihad El-Sana:
Multi-user view-dependent rendering. 335-342 - Suresh K. Lodha, Jose C. Renteria, Krishna M. Roskin:
Topology preserving compression of 2D vector fields. 343-350 - Harald Garcke, Tobias Preußer, Martin Rumpf, Alexandru C. Telea, Ulrich Weikard, Jarke J. van Wijk:
A continuous clustering method for vector fields. 351-358 - Xavier Tricoche, Gerik Scheuermann, Hans Hagen:
A topology simplification method for 2D vector fields. 359-366 - Kathleen S. Bonnell, Kenneth I. Joy, Bernd Hamann, Daniel Schikore, Mark A. Duchaineau:
Constructing material interfaces from data sets with volume-fraction information. 367-372 - Udo Adamy, Joachim Giesen, Matthias John:
New techniques for topologically correct surface reconstruction. 373-380 - Georges-Pierre Bonneau, Stefanie Hahmann:
Polyhedral modeling. 381-387 - Martin Bertram, Mark A. Duchaineau, Bernd Hamann, Kenneth I. Joy:
Bicubic subdivision-surface wavelets for large-scale isosurface representation and visualization. 389-396 - Ulrich Clarenz, Udo Diewald, Martin Rumpf:
Anisotropic geometric diffusion in surface processing. 397-405 - Andreas Hubeli, Markus H. Gross:
Fairing of non-manifolds for visualization. 407-414 - Fakir S. Nooruddin, Greg Turk:
Interior/exterior classification of polygonal models. 415-422 - Ariel Shamir, Chandrajit L. Bajaj, Valerio Pascucci:
Multi-resolution dynamic meshes with arbitrary deformations. 423-430 - Kay A. Robbins, Michael Gorman:
Fast visualization methods for comparing dynamics: a case study in combustion. 433-436 - Lukas Mroz, Rainer Wegenkittl, M. Eduard Gröller:
Mastering interactive surface rendering for Java-based diagnostic applications. 437-440 - J. Edward Swan II, Marco Lanzagorta, Doug Maxwell, Eddy Kuo, Jeffrey K. Uhlmann, Wendell Anderson, Haw-Jye Shyu, William Smith:
A computational steering system for studying microwave interactions with missile bodies. 441-444 - Daniel Weiskopf:
Four-dimensional non-linear ray tracing as a visualization tool for gravitational physics. 445-448 - Klaus Engel, Thomas Ertl, Peter Hastreiter, Bernd Tomandl, K. Eberhardt:
Combining local and remote visualization techniques for interactive volume rendering in medical applications. 449-452 - A. J. Fenlon, Tim David, J. P. R. B. Walton:
An integrated visualization and design toolkit for flexible prosthetic heart valves. 453-456 - Andrew S. Forsberg, David H. Laidlaw, Andries van Dam, Robert M. Kirby, George E. Karniadakis, Jonathan L. Elion:
Immersive virtual reality for visualizing flow through an artery. 457-460 - Rainer Wegenkittl, Anna Vilanova Bartrolí, Balint Hegedüs, Daniel Wagner, Martin C. Freund, M. Eduard Gröller:
Mastering interactive virtual Bronchioscopy on a Low-end PC. 461-464 - Henk Huitema, Robert van Liere:
Interactive visualization of protein dynamics. 465-468 - Patric Ljung, Mark Dieckmann, Niclas Andersson, Anders Ynnerman:
Interactive visualization of particle-in-cell simulations. 469-472 - Wim C. de Leeuw, Robert van Liere, Pernette J. Verschure, Roel van Driel, Astrid E. Visser, Erik M. M. Manders:
Visualization of time dependent confocal microscopy data. 473-476 - Lloyd Treinish:
Visual data fusion for applications of high-resolution numerical weather prediction. 477-480 - Karen G. Bemis, Deborah Silver, Peter A. Rona, Chengwei Feng:
Case study: a methodology for plume visualization with application to real-time acquisition and navigation. 481-484 - Pak Chung Wong, Harlan Foote, L. Ruby Leung, Elizabeth Jurrus, Dan Adams, James J. Thomas:
Vector fields simplification - a case study of visualizing climate modeling and simulation data sets. 485-488 - Donna L. Gresh, Bernice E. Rogowitz, Raimond L. Winslow, David F. Scollan, Christina K. Yung:
WEAVE: a system for visually linking 3-D and statistical visualizations, applied to cardiac simulation and measurement data. 489-492 - Penny Rheingans, Marie desJardins:
Visualizing high-dimensional predicitive model quality. 493-496 - David R. Nadeau, Michael J. Bailey:
Visualizing volume data using physical models. 497-500 - Gregory L. Schussman, Kwan-Liu Ma, David P. Schissel, Todd Evans:
Visualizing DIII-D Tokamak magnetic field lines. 501-504 - Paul Chapman, Derek Wills, Peter Stevens, Graham R. Brookes:
Real-time visualization of the clear-up of a former U.S. Naval base. 505-508 - Robert Stein, Alan M. Shih, M. Pauline Baker, Carl F. Cerco, Mark R. Noel:
Scientific visualization of water quality in the Chesapeake Bay. 509-512 - Lloyd Treinish:
Multi-resolution visualization techniques for nested weather models. 513-516 - Theresa-Marie Rhyne, Peter Doenges, William L. Hibbard, Hanspeter Pfister, Nate Robins:
The impact of computer games on scientific & information visualization: "if you can't beat them, join them" (panel session). 519-521 - Hanspeter Pfister, William E. Lorensen, William J. Schroeder, Chandrajit L. Bajaj, Gordon L. Kindlmann:
The transfer function bake-off (panel session). 523-526 - James P. Ahrens, Kai Li, Daniel A. Reed:
Next-generation visualization displays: the research challenges of building tiled displays (panel session). 527-529
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