October 29–30, 2001
Columbia University, New York, NY
http://www.cs.columbia.edu/graphics/isar2001
http://www.augmented-reality.org/isar2001
7:15
– 8:30: Registration
8:30
– 8:50: Opening Remarks
8:50
– 9:50: Invited Talk
David Hawkes, Guy’s Hospital, King’s College London
School of Medicine.
Microscope Assisted Guided Interventions (MAGI) – An Application of Augmented Reality in Image Guided Surgery
Session chair: Nassir Navab, Siemens
Corporate Research
9:50
– 10:20: Coffee Break
10:20 – 12:00: Medical
Augmented Reality
Dynamic Superimposition of
Synthetic Objects on Rigid and Simple-deformable Real Objects
Yann Argotti, Larry Davis,
Valerie Outters and Jannick Rolland
University of Central Florida
Real Time Tomographic
Reflection: Phantoms for Calibration and Biopsy
George Stetten, Vikram Chib, Daniel
Hildebrand and Jeannette Bursee
Current status of the
Varioscope AR, a head-mounted operating microscope for computer-aided surgery
M.
Figl, W. Birkfellner, J. Hummel, R. Hanel, P. Homolka, F. Watzinger, F.
Wanschitz, R. Ewers, H. Bergmann, University of Vienna, Vienna General
Hospital
Augmented Reality Visualization of Ultrasound
Images: System Description, Calibration, and Features
Frank Sauer, Ali Khamene,
Benedicte Bascle, Lars Schimmang, Fabian Wenzel and Sebastian Vogt, Siemens
Corporate Research
12:00
– 1:30 Lunch Break
1:30
– 2:30: Invited Talk
Ulrich Neumann, University of Southern California.
AR Out of the Box
2:30
– 3:20: Components and Gestures
Martin Bauer, Bernd Brügge,
Gudrun Klinker, Asa MacWilliams, Thomas Reicher, Stefan Riß, Christian Sandor,
and Martin Wagner
Munich University of
Technology (TU München)
Finger tracking for
interaction in augmented environments
Klaus Dorfmüller-Ulhaas and
Dieter Schmalstieg
3:20
– 3:50: Coffee Break
3:50
– 5:30: Indoor and Outdoor Tracking
A Hybrid Registration Method
for Outdoor Augmented Reality
Kiyohide Satoh, Mahoro
Anabuki, Hiroyuki Yamamoto and Hideyuki Tamura
Augmented Reality in a Wide
Area Sentient Environment
Joseph Newman, David Ingram
and Andy Hopper
Markerless Augmented Reality
with a Real-time Affine Region Tracker
Vittorio
Ferrari, Tinne Tuytelaars and Luc Van Gool
Extendible Tracking by Line
Auto-Calibration
Bolan Jiang and Ulrich
Neumann
7:00 – 11:00: Evening Banquet at the Teatro
of the Italian Academy at Columbia University
Invited talk:
Henry Fuchs, University
of North Carolina, Chapel Hill
Immersion and Tele-immersion
in the Office of the Future
Video presentation:
Hiroyuki Yamamoto, Mixed
Reality Systems Laboratory, Inc.
Mixed Fantasy:
Experience-Based Simulation and Entertainment
Music: Eric Haltmeier Trio
7:45
– 8:30: Registration
8:30
– 9:45: Mobile Augmented Reality
Distributed
Low-latency Rendering for Mobile AR
W.
Pasman
Mobile Collaborative
Augmented Reality
Gerhard Reitmayr and Dieter
Schmalstieg
Vienna
University of Technology (TU Wien)
Augmented
maintenance of powerplants: A prototyping case study of a mobile AR system
Gudrun Klinker, Oliver Creighton, Allen Dutoit,
Rafael Kobylinski, Christoph Vilsmeier and Bernd Brügge
Munich University of Technology (TU
München)
9:45
– 10:15: Coffee Break
10:15
– 11:30: Video and Optical See-through HMD
Dynamic Virtual Convergence
for Video See-through Head-mounted Displays: Maintaining Maximum Stereo Overlap
throughout a Close-range Work Space
Andrei
State, Jeremy Ackerman, Gentaro Hirota, Joohi Lee, and Henry Fuchs.
Optical See-Through
Calibration with Vision-Based Trackers: Propagation of Projection Matrices
Yakup Genc, Mihran Tuceryan,
Ali Khamene and Nassir Navab
Siemens Corporate Research, and Indiana
University Purdue University Indianapolis
A New System for Online
Quantitative Evaluation of Optical See-Through Augmentation
Erin
McGarrity, Yakup Genc, Mihran Tuceryan, Charles Owen and Nassir Navab
Michigan
State University, Siemens Corporate Research, and Indiana University Purdue
University Indianapolis
11:30
– 12:00: Posters & Demo Teasers
12:00
– 1:00: Lunch break
1:00
– 3:00: Poster & Demo Session
Posters:
MR2 (MR Square): A Mixed-Reality Meeting
Room
Kiyoshi Kiyokawa, Makoto Niimi, Tsuyoshi Ebina, and
Hiroyuki Ohno
Testing Information Delivery Methods Using Augmented
Reality
Paul Jackson, Joan Ealey-Sawyer, I-Li Lu, and
Stephen Jones
A Quick Method for Synthesizing Photorealistic Color
Images under Various Illumination Conditions
Li Shen, Noboru Babaguchi, and Tadahiro Kitahasi
Real-Time 3D Object Recognition for Automatic
Tracker Initialization
Gábor Blaskó and Pascal Fua
Swiss Federal Institute of Technology (EPF Lausanne)
Tinmith-evo5: An Architecture for Supporting Mobile
Augmented Reality Environments
Wayne Piekarski and Bruce Thomas
Taking AR into Large Scale Industrial Environments:
Localization and Data Navigation with Mobile
Computers
Xiang Zhang, Yakup Genc, and Nassir Navab
Mobile AR4ALL
Christian Geiger, Bernd Kleinnjohann, Christian
Reimann, and Dirk Stichling
Linear Solutions for Visual Augmented Reality
Registration
Adnan Ansar and Kostas Daniilidis
Augmented Reality (AR)for Assembly Processes – An
Experimental Evaluation
Stefan Wiedenmaier, Olaf Oehme, Ludger Schmidt, and
Holger Luczak
Illuminating the Mixed Reality Stage - Applying
Complex Lighting Conditions to AR
Michael Wittkämper, Eckhard Meier, and Wolfgang
Broll,
GMD-FIT
Outdoor Augmented Reality: From Scene Preparation to
Markerless Vision-based Tracking On-Site
Didier Stricker, Thomas Kettenbach, Fraunhofer
IGD/ZGDV
3D reconstruction of the operating field for image
overlay in 3D-endoscopic surgery
Fabien Mourgues, Frédéric Devernay, Ève
Coste-Manière
Demos:
·
“Mobile
Collaborative Augmented Reality,” by Gerhard Reitmayr and Dieter Schmalstieg,
Vienna University of Technology, Austria.
·
“Wireless
inertial tracking system,” by H. Krüger, P. Fischer, Physikalisches Institut,
Bonn University, Bonn, Germany and by P. Henne, GMD-FIT, Sankt Augustin,
Germany.
·
“Door Assembly Training,” by Arnold Stadtler, Matthias Baumann of Ford Forschungszentrum Aachen GmbH, by
Stefan Wiedenmaier of Institute of Industrial
Engineering and Ergonomics, Aachen University of Technology, and by Olaf Oehme
of Institute of Industrial Engineering and Ergonomics, Aachen University of
Technology.
·
“AlterAquarium
and AlterBeach,” by Alok b. Nandi, Xavier Marichal, David Ergo, Toshiuki Umeda,
Xavier Wielemans, Damien Douxchamps, Laurence Beckers, Luc Letellier, Benoît
Jadinon, and Jonathan Ooghe, Alterface, c/o Laboratoire de Télécommunications
et Télédétection Université catholique de Louvain, Belgium.
·
“MagicCAD;
an AR Scene Builder,” by Hirokazu Kato, Mark Billinghurst, Kenji Imamoto,
Keihachiro Tachibana, Faculty of Information Sciences, Hiroshima City
University, and Human Interface
Technology Laboratory, University of Washington.
·
“Markerless
optical tracking for mobile Augmented Reality applications,” by Didier Stricker,
Stefan Müller, Fraunhofer Institut for Computer Graphics IGD.
·
Augmented
Groove+; A Tangible AR Instrument, by Mark Fauver, Mark Billinghurst, Human
Interface Technology Laboratory, University of Washington.
·
“The
AR Pad,” by Dmitryi Mogilev, Mark Billinghurst, Kiyoshi Kiyokawa, Jarrell Pair,
Human Interface Technology Laboratory, University of Washington, and Charmed
Technologies, Los Angeles.
·
“Real
Time Tomographic Reflection - The Sonic Flashlight,” by George Stetten, M.D.,
Ph.D. and Vikram Chib, Department of Bioengineering, University of Pittsburgh,
and The Robotics Institute, Carnegie Mellon University.
·
“Head
tracking using the Virtual Retinal Display,” by Winyu Chinthammit, Robert
Burstein, Eric J. Seibel, Thomas A. Furness, The Human Interface Technology
Lab, the University of Washington.
·
“Mobile
Augmented Reality Systems,” by Steve Feiner, Blaine Bell, Sinem Guven, Drexel
Hallaway, Tobias Höllerer, Simon Lok, Alex Olwal, John Tang, Navdeep Tinna,
Ryuji Yamamoto, Columbia University.
·
“Dynamic
Shader Lamps: Painting on Real Objects,” by Deepak Bandyopadhyay, Ramesh
Raskar, Henry Fuchs, UNC Chapel Hill, and MERL.
·
“Collaborative
Mobile Augmented Reality,” by Simon Julier, Yohan Baillot, Dennis Brown, Naval
Research Laboratory / ITT.
·
“The
ImageTclAR Augmented Reality Development Environment,” by Charles B. Owen,
Michael Malinak, Jon Babbage, Kirit Patel, Media and Entertainment Technologies
Laboratory, Michigan State University.
·
“Localization,
Navigation and Data Access to Industrial Settings with Mobile Computers,” by X.
Zhang, N. Navab, Y. Genc.
·
“An
Optical See-Through Augmented Reality System: A Testbed to Demonstrate Ideas
for Evaluation, Calibration, etc.” by Y. Genc, E. McGarrity, M. Tuceryan, N.
Navab.
3:00
– 3:30: Coffee Break
During
both conference days, industrial exhibitors will showcase their
technologies: Advanced Realtime Tracking GmbH, Advanced
Realtime Tracking GmbH are located near Munich, Germany. They develop and
manufacture high precision IR-optical tracking systems for VR/AR
applications, industrial and medical measurement purposes and for body
tracking in animation and ergonomics. InterSense,
InterSense are located in
Burlington, MA. They develop and market motion-tracking products that
enable users to interact with 3D computer-generated environments —
literally bringing 3D to life.
3:30
– 4:30: Invited Talk
Jun Rekimoto,
Sony Computer Science Laboratories
Living in a Computer Augmented Environment
Session
chair: Haruo Takemura, Nara Institute of Science &
Technology
4:30
– 5:45: Experiencing, Painting, Projecting
Augmented Reality as a New
Media Experience
Blair
MacIntyre, Jay Bolter, Emmanuel Moreno and Brendan Hannigan
Dynamic Shader Lamps :
Painting on Movable Objects
Deepak
Bandyopadhyay, Ramesh Raskar and Henry Fuchs
University
of North Carolina at Chapel Hill, and Mitsubishi Electric Research Lab
Using a Head-Mounted
Projective Display in Interactive Augmented Environments
Hong Hua, Chunyu Gao, Leonard
Brown, Narendra Ahuja and Jannick Rolland
University of Illinois at
Urbana-Champaign, and University of Central Florida
5:45
– 6:00: Closing Remarks