分布式交互学习环境

Proceedings 3rd IEEE International Workshop on Distributed Interactive Simulation and Real-Time Applications Pub Date : 1999-03-23 DOI:10.1109/DISRTA.1999.807725

Jim X. Chen, C. Dede, X. Fu, Yonggao Yang

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引用次数: 5

摘要

我们提出了用于实现综合学习环境的策略和方法，包括网络、分布式交互仿真、基于物理的建模、计算导向和用于学习抽象科学概念的虚拟现实。由此产生的技术是一个测试平台，反映了校舍在培训和教育方面的好处，特别是在学习科学抽象概念方面。学生们可以相互交流，进行现实的合作练习。我们的网络架构和协议允许交互式网络环境具有更高的可扩展性。我们对计算导向和交互式可视化的创新使用使学生能够可视化和操作物理过程，并且更容易理解抽象概念。我们使用流体动力学作为案例研究来展示这种学习环境。

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Distributed interactive learning environment

We present strategies and approaches used to implement a synthetic learning environment which includes networking, distributed interactive simulation, physically-based modeling, computational steering, and virtual reality for learning abstract scientific concepts. The resulting technology is a testbed that reflects the benefits of a schoolhouse for training and education, especially for learning scientific abstract concepts. Students are allowed to interact with one another and engage in realistic collaborative exercises. Our network architecture and protocol allow the interactive networked environment to be much more scalable. Our innovative use of computational steering and interactive visualization allows students to visualize and manipulate the physical process, and understand the abstract concept much easier. We use fluid dynamics as a case study to demonstrate this learning environment.

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Proceedings 3rd IEEE International Workshop on Distributed Interactive Simulation and Real-Time Applications

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