A multimodel methodology for qualitative model engineering
ACM Transactions on Modeling and Computer Simulation (TOMACS)
SimPack: getting started with simulation programming in C and C++
WSC '92 Proceedings of the 24th conference on Winter simulation
Programming in three dimensions
Programming in three dimensions
A framework for distributed object-oriented multimodeling and simulation
Proceedings of the 29th conference on Winter simulation
OOPM/RT: a multimodeling methodology for real-time simulation
ACM Transactions on Modeling and Computer Simulation (TOMACS)
A 3D XML-based customized framework for dynamic models
Proceedings of the seventh international conference on 3D Web technology
Simulation Model Design and Execution: Building Digital Worlds
Simulation Model Design and Execution: Building Digital Worlds
Obliq-3D: A High-Level, Fast-Turnaround 3D Animation System
IEEE Transactions on Visualization and Computer Graphics
Online-configuration of software visualizations with Vizz3D
SoftVis '05 Proceedings of the 2005 ACM symposium on Software visualization
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In this chapter, we discuss a software modeling and visualization framework called rube. This framework facilitates the creation of three-dimensional (3-D) software visualizations that integrate both static software architecture and dynamic real-time operation. A unique aspect of rube is that it does not tie developers down to a set of predefined symbols, objects, or metaphors in their visualizations. Consequently, users have the freedom to develop their own representations. The rube framework's general approach to software modeling and representation are discussed. Next, a simple example is developed according to rube's systematic modeling and visualization process. Lastly, benefits of the framework and future directions are discussed.