Frameworks = (components + patterns)
Communications of the ACM
MPEG-4 BIFS streaming of large virtual environments and their animation on the web
Proceedings of the seventh international conference on 3D Web technology
Presence: Teleoperators and Virtual Environments - special issue: IEEE virtual reality 2002 conference
Avocado: A Distributed Virtual Reality Framework
VR '99 Proceedings of the IEEE Virtual Reality
VR Juggler: A Virtual Platform for Virtual Reality Application Development
VR '01 Proceedings of the Virtual Reality 2001 Conference (VR'01)
Focus on 3D Models
A case for 3D streaming on peer-to-peer networks
Proceedings of the eleventh international conference on 3D web technology
Live 3D Video in Soccer Stadium
International Journal of Computer Vision
Streaming web services for 3D portal applications
Web3D '08 Proceedings of the 13th international symposium on 3D web technology
An overview of the OMNeT++ simulation environment
Proceedings of the 1st international conference on Simulation tools and techniques for communications, networks and systems & workshops
Service-oriented-architecture based framework for multi-user virtual environments
Proceedings of the 40th Conference on Winter Simulation
Using Web services to integrate heterogeneous simulations in a grid environment
Future Generation Computer Systems
Web Services: Concepts, Architectures and Applications
Web Services: Concepts, Architectures and Applications
An approach to WebGL based distributed virtual environments
Proceedings of the 18th International Conference on 3D Web Technology
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In our previous work we developed Caffe Neve framework that allows application developers to create flexible and extensible Distributed Virtual Environments (DVEs) applications from the distributed components. The components can serve as remote content sources that stream down interactive 3D content to the application integrator. Since DVEs are interactive, multi-user and networked systems, it is important to ensure good responsiveness and overall performances of the developed applications. We investigate the performance of the integrated applications to evaluate the framework capability. We conducted experiments and used OMNeT++ simulation tool to explore the scalability issues. We use various metrics such as the response latency and service load estimation to evaluate the framework performance.