InNervate immersion: case study of dynamic simulations in AR/VR environments for learning muscular innervation

ACM SIGGRAPH 2019 Posters Pub Date : 2019-07-28 DOI:10.1145/3306214.3338580

Margaret E. Cook, Amber Ackley, Karla I. Chang Gonzalez, A. Payne, J. Seo, Caleb Kicklighter, M. Pine, Timothy McLaughlin

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引用次数: 1

Abstract

We present a collaborative immersive technology effort, InNervate AR and InNervate VR. These applications meet the need to expand on existing anatomy education platforms by implementing a more dynamic and interactive user interface. This user interface allows for exploration of the complex relationship between motor nerve deficits and their effects upon the canine anatomy's ability to produce movement. Preliminary AR user studies provided us with positive feedback in the quality of learning. The studies show that the dynamic touch interactions in AR definitely benefit students' critical reasoning and spatial visualization in learning motor nerve and muscle relationships. However, users seek a more immersive VR-based learning environment, without the distractions that an AR experience may offer. Based on this feedback, a VR version of this learning experience was created. Preliminary responses show that users are satisfied with this VR environment which allows them to manipulate and control the anatomical content with full-body interactions.

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神经支配沉浸:在AR/VR环境中动态模拟学习肌肉神经支配的案例研究

我们提出了一种协作式沉浸式技术，InNervate AR和InNervate VR。这些应用程序通过实现更加动态和交互式的用户界面，满足了在现有解剖学教育平台上扩展的需要。这个用户界面允许探索运动神经缺陷及其对犬解剖结构产生运动能力的影响之间的复杂关系。初步的AR用户研究为我们提供了学习质量方面的积极反馈。研究表明，AR中的动态触觉互动对学生在学习运动神经和肌肉关系时的批判性推理和空间可视化有一定的帮助。然而，用户寻求更身临其境的基于vr的学习环境，而不会像AR体验那样分心。基于这些反馈，我们创造了一个VR版本的学习体验。初步反应表明，用户对这种虚拟现实环境感到满意，这种环境允许他们通过全身交互来操纵和控制解剖内容。

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ACM SIGGRAPH 2019 Posters

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