A Compact and Low-cost VR Tooth Drill Training System using Mobile HMD and Stylus Smartphone

Tatsuki Takano, Kazuki Takashima, Kazuyuki Fujita, Hong Guang, Kaori Ikematsu, Y. Kitamura
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Abstract

Drilling teeth is a significant technique for dental learners. However, the existing VR tooth drill training simulators are physically large and costly, which cannot be used at home or classroom for a private study. This work presents a novel low-cost mobile VR dental simulator using off-the-shelf devices, including a mobile HMD and a stylus smartphone. In this system, a 3D-printed physical teeth prop is placed on an EMR stylus smartphone where its stylus tracks the tip position of a physical drill. Unlike existing solutions using haptic/force devices, our approach involving physical contact between the prop and drill tip enables the user’s natural teeth hardness sensation. The use of smartphone stylus would enable significantly more accurate drill position sensing around the teeth than HMD’s accompanying controllers. We also developed VR software to simulate tooth drilling on this setup. This demo will show how our new mobile simulator offers a realistic feeling of drilling teeth.
一种使用移动头戴式显示器和触控笔智能手机的紧凑低成本VR牙钻训练系统
钻牙是牙科学习者的一项重要技术。然而,现有的虚拟现实牙钻训练模拟器体积庞大,价格昂贵,无法在家庭或教室进行私人学习。这项工作提出了一种新型的低成本移动VR牙科模拟器,使用现成的设备,包括移动HMD和手写智能手机。在该系统中,将3d打印的实体牙齿支架放置在EMR手写笔智能手机上,其手写笔可以跟踪物理钻头的尖端位置。与现有使用触觉/力设备的解决方案不同,我们的方法涉及支柱和钻尖之间的物理接触,使用户能够自然感受到牙齿的硬度。使用智能手机触控笔可以比HMD的配套控制器更精确地感知牙齿周围的钻头位置。我们还开发了VR软件来模拟在这个装置上钻牙。这个演示将展示我们的新移动模拟器如何提供钻牙的逼真感觉。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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