The “3D Wiki”: Blending virtual worlds and Web architecture for remote collaboration

While a lot of technical data is available on the Web, conveying information about detailed procedures for the assembly and repair of complex machinery has so far been limited mostly to 2D drawings and textual content. In this paper we describe the technology behind our 3D Wiki, a system meant to address this problem. By blending the functionality of virtual worlds (3D visualization and navigation) with the benefits of social software (editability, traceability, and hyperlinking), the 3D Wiki can help users tasked with the remote maintenance and repair of technical equipment. Our environment provides a kind of “living technical manual”, seamlessly blending spatial and textual content.

[1]  Roy Fielding,et al.  Architectural Styles and the Design of Network-based Software Architectures"; Doctoral dissertation , 2000 .

[2]  Daniel Thalmann,et al.  Realistic Avatars and Autonomous Virtual Humans in VLNET Networked Virtual Environments , 1998 .

[3]  Thimoty Barbieri Networked virtual environments for the Web: the WebTalk-I and WebTalk-II architectures , 2000, 2000 IEEE International Conference on Multimedia and Expo. ICME2000. Proceedings. Latest Advances in the Fast Changing World of Multimedia (Cat. No.00TH8532).

[4]  Christer Carlsson,et al.  DIVE - A platform for multi-user virtual environments , 1993, Comput. Graph..

[5]  Horst Bischof,et al.  Towards Wiki-based Dense City Modeling , 2007, 2007 IEEE 11th International Conference on Computer Vision.

[6]  Taku Komura,et al.  Computing inverse kinematics with linear programming , 2005, VRST '05.

[7]  Steve Pettifer,et al.  DEVA3: architecture for a large-scale distributed virtual reality system , 2000, VRST '00.

[8]  Nicolas Rivierre,et al.  An open middleware for large-scale networked virtual environments , 2002, Proceedings IEEE Virtual Reality 2002.

[9]  Rycharde Hawkes,et al.  Distributed Virtual Environments and VRML: An Event-Based Architecture , 1998, Comput. Networks.

[10]  Ruzena Bajcsy,et al.  The Effects of Fully Immersive Virtual Reality on the Learning of Physical Tasks , 2006 .

[11]  Chris Greenhalgh,et al.  Awareness-based communication management in the MASSIVE systems , 1998, Distributed Syst. Eng..

[12]  Stephen Travis Pope,et al.  A cookbook for using the model-view controller user interface paradigm in Smalltalk-80 , 1988 .

[13]  Timo Kaukoranta,et al.  Aspects of networking in multiplayer computer games , 2002, Electron. Libr..

[14]  Gerhard Reitmayr,et al.  DeepMatrix – An open technology based virtual environment system , 1999, The Visual Computer.

[15]  E KrasnerGlenn,et al.  A cookbook for using the model-view controller user interface paradigm in Smalltalk-80 , 1988 .

[16]  Jérémie Allard,et al.  FlowVR: A Middleware for Large Scale Virtual Reality Applications , 2004, Euro-Par.

[17]  Daniel Thalmann,et al.  VHD: a system for directing real-time virtual actors , 1999, The Visual Computer.

[18]  Michael Zyda,et al.  NPSNET:A Network Software Architecture for LargeScale Virtual Environments , 1994, Presence: Teleoperators & Virtual Environments.

[19]  Jauvane Cavalcante de Oliveira,et al.  VELVET: An Adaptive Hybrid Architecture for Very Large Virtual Environments , 2003, Presence: Teleoperators & Virtual Environments.

[20]  Pere Brunet,et al.  MiniVR: a portable virtual reality system , 2004, Comput. Graph..