Virtual CoLab with 3D avatar collaboration

The virtual CoLab Project is researching how mathematicians (as well as other professionals) can use 3D virtual environments to collaborate and communicate with each other, even when they might not be situated in the same physical location. It uses 3D environments with rich media features (browsers, movies, chat), avatar embodiments and spatial user interface constructs to create a shared experience that gives the remote participants a sense of tele-presence -- a feeling that they are "there" in the same place with others. We are experimenting with virtual social and information environments connected amongst themselves (all virtual) as well as existing along side a physical collaborative room.

The current setup use a windows-based free client tool called muse (www.musecorp.com) which is an open, component-based, extensible software architecture that presents the developer with the possibility of creating immersive 3D environments that unite video and animation, audio, 3D models, and multi-user capabilities. The Muse architecture which is built on Tcl and XML promotes rapid innovation and provides a flexible foundation for incorporating current and emerging technologies.

Our first 3D environment is a virtual replica of the SFU CoLab room (picture above) where web browsers kiosks stand in for the physical CoLab's smart-board PC setup. We are now investigating how individuals in the physical CoLab can collaborate with remote colleagues who login to the Muse based virtual CoLabs from their PCs. The hope is that researchers in the future will have the option when they want to collaborate with peers, to travel the nearest physical CoLab room (at say a major university in the area), or choose to participate online in a virtual coLab with simple software and an available PC setup.

We are also building flexible virtual environments that can be tailored for specific collaborative goals, where the setup and functional (how many kiosks situated in what type of organizational relationship for instance) depend on the desired outcome or process. You would have markedly different setup of the informational environment for a group that was trying to brainstorm compared a situation where you where giving a tour through a solved problem for those new to it. Our interest is to analyze which setups work best for specific goals and also compare similar analysis being performed at the physical CoLab room with that of the virtual setups.

Virtual CoLab Researchers:

Steve DiPaola -- sdipaola@sfu.ca -- CoLab Associate Member and SFU Faculty

Julie Tolmie -- julie_tolmie@sfu.ca -- CoLab Associate Member and SFU Faculty

Steve Dugaro -- sdugaro@sfu.ca -- CoLab Associate Member and RA

Connecting to the Virtual CoLab

Virtual CoLab Models
colab.zip colab.msite geoms.zip
steve.zip
steve.mentity
jen.zip
jen.mentity
jon.zip
jon.mentity
robb.zip
robb.mentity
herre.zip
herre.mentity
mason.zip
mason.mentity