动态骨盆肢体模型支持学生对大体解剖空间可视化的理解

Proceedings of the Eleventh International Conference on Tangible, Embedded, and Embodied Interaction Pub Date : 2017-03-20 DOI:10.1145/3024969.3024994

E. Malone, J. Seo, M. Pine, B. Smith

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引用次数: 2

摘要

目前用于解剖学教育的视觉辅助工具通常只用于帮助识别结构，在某些情况下，有助于理解结构之间的空间关系。然而，结构基本功能的知识对于理解解剖学是至关重要的，而在教学工具的设计中却被大大忽视了。一个主要的概念，目前的工具缺乏能力证明是基本的生物力学。解决这种疏忽的一个可能的解决方案是创建一个动态的、交互式的模型来展示运动。这种类型的模型的创建应该包含许多不同学科的方面，并且应该通过提供引人入胜和直观的交互来促进学习。为了验证这一假设，建立了基于物理的犬骨盆肢体交互动力学仿真模型。从用户研究、学生的积极反馈和测验成绩的提高来看，交互式仿真模型对解剖教学中学生的理解有积极的影响。

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Kinetic Pelvic Limb Model to Support Students' Understanding of Spatial Visualization in Gross Anatomy

Visual aids currently being used for anatomy education are often only designed to help identify structures and, in some cases, to facilitate understanding of the spatial relationships amongst structures. However, a knowledge of the basic functions of structures is crucial to understanding anatomy and is vastly neglected in the design of instructional tools. One major concept which current tools lack the ability to demonstrate is basic biomechanics. A possible solution to address this oversight is the creation of a kinetic, interactive model that demonstrates movement. Creation of this type of model should incorporate aspects of many different disciplines and should facilitate learning by providing engaging and intuitive interaction. To test this hypothesis, a physically based interactive kinetic simulation model of the canine pelvic limb was constructed. From the user studies, positive student feedback as well as improved quiz scores show that the interactive simulation model had a positive effect on student comprehension in anatomy education.

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Proceedings of the Eleventh International Conference on Tangible, Embedded, and Embodied Interaction

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