International Journal of Advanced Culture Technology

The International Promotion Agency of Culture Technology (국제문화기술진흥원)
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Research and development of haptic simulator for Dental education using Virtual reality and User motion

  • Received : 2018.10.22
  • Accepted : 2018.11.06
  • Published : 2018.12.31
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Abstract

The purpose of this paper is to develop simulations that can be used for virtual education in dentistry. The virtual education to be developed will be developed with clinical training and actual case data of tooth extraction. This development goal is to allow dental students to learn the necessary surgical techniques at the point of their choice, not going into the operating room, away from time, space, and physical limits. I want to develop content using VR. Oculus Rift HMD, Optical Based Outside-in Tracking System, Oculus Touch Motion Controller, and Headset as Input / Output Device. In this configuration, the optimization method is applied convergent, and when the operation of the VR contents is performed, the content data is extracted from the interaction analysis formed in the VR engine, and the data is processed by the content algorithm. It also computes events and dental operations generated within the 3D engine programming and generates corresponding events through data processing according to the input signal. The visualization information is output to the HMD using the rendering information. In addition, the operating room environment was constructed by studying lighting and material for actual operating room environment. We applied the ratio of actual space to virtual space and the ratio between character and actual person to create a spatial composition at a similar rate to actual space.

Keywords

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Figure 1. Development system of composition

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Figure 2. Scenario conceptual diagram of VR dental extraction contents

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Figure 3. Development system of composition

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Figure 4. Realization of motion-based motion based interaction using HMD

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Figure 5. Relationship between centers of acquired image coordinates and position on monitor for center point coordination of head movement

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Figure 6. Apply shader using real person's texture data

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Figure 7. Render to Texture

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Fig 8. Configuration of medical chair

References

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