Zeitschriftenartikel:
D. Schmalstieg, G. Reitmayr, G. Hesina:
"Distributed Applications for Collaborative Three-Dimensional Workspaces";
Presence,
12
(2003),
1;
S. 53
- 68.
Kurzfassung deutsch:
This paper focuses on the distributed architecture of the collaborative three-dimensional user interface management system Studierstube. The
system allows multiple users to experience a shared 3D workspace populated by multiple applications using see-through head mounted displays or other
presentation media such as projection systems. The system design is based on a distributed shared scene graph that alleviates the application programmer
from explicitly considering distribution, and avoids a separation of graphical and application data. The idea of unifying all system data in the scene graph is
taken to its logical consequence by implementing application instances as nodes in the scene graph. Through the distributed shared scene graph mechanism,
consistency of scene graph replicas and the contained application nodes is assured. Multi-user 3D widgets allow concurrent interaction with minimal
coordination effort from the application. Special interest is paid to migration of application nodes from host to host allowing dynamic workgroup management,
load balancing, ad-hoc collaboration, and ubiquitous computing.
Kurzfassung englisch:
This paper focuses on the distributed architecture of the collaborative three-dimensional user interface management system Studierstube. The system allows multiple users to experience a shared 3D workspace populated by multiple applications using see-through head mounted displays or other presentation media such as projection systems. The system design is based on a distributed shared scene graph that alleviates the application programmer from explicitly considering distribution, and avoids a separation of graphical and application data. The idea of unifying all system data in the scene graph is taken to its logical consequence by implementing application instances as nodes in the scene graph. Through the distributed shared scene graph mechanism, consistency of scene graph replicas and the contained application nodes is assured. Multi-user 3D widgets allow concurrent interaction with minimal coordination effort from the application. Special interest is paid to migration of application nodes from host to host allowing dynamic workgroup management, load balancing, ad-hoc collaboration, and ubiquitous computing.
Schlagworte:
Studierstube, Augmented Reality, collaboration
Elektronische Version der Publikation:
http://www.ims.tuwien.ac.at/media/documents/publications/migration_presence.pdf
Erstellt aus der Publikationsdatenbank der Technischen Universität Wien.