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Optical Motion Capture Equipment Installation Training Web3D Virtual Simulation System

Published: 28 February 2024 Publication History

Abstract

The optical motion capture devices are widely used in various fields such as new media, metaverse, film, and gaming. However, due to its high price, limitations in installation caused by temporal and spatial conditions, among other reasons, the installation and training of optical motion capture equipment are challenging. To address this issue, this paper proposes an optical motion-capturing device installation training system based on Web3D virtual simulation technology. This system is divided into three functional modules: interactive webpages, virtual simulation experiments, and grade and information management. This system uses Unity3D and 3DsMax to simulate the installation and dismantling process of optical motion capture devices. It utilizes recording functions in the Webgl2.0 framework to record and playback the experimental process. The system manages step-by-step experimental data, such as performance records, using a database and designs interactive web pages using. The experimental results show that the system helps users quickly master the methods and skills of installing and debugging optical motion capture equipment.

References

[1]
Jiang, Luchuan.Research on 3D simulation of swimming technique training based on FPGA and virtual reality technology[J].Microprocessors and Microsystems,2021, 81:1-6.
[2]
Gutiérrez,K.J.,et al.3D Virtual Training System for a Bioreactor Using Hardware-in-the-Loop[J]. Perspectives and Trends in Education and Technology,2022,256:573–586.
[3]
AL-HIYARI, NARMEEN N. and JUSOH, SHAIDAH S.Healthcare Training Application: 3D First Aid Virtual Reality[C].ACM International Conference Proceeding Series,2021,107-116.
[4]
Liao, Xiaohui,Wang, Hao,et al.Research on Simulation Training System of Immersive Substation Based on Virtual Reality[C].IOP Conference Series: Materials Science and Engineering, 2019,  486(1):1-6.
[5]
ze Li, lijie Cui, Ren Bo. Study on the virtual simulation training system for SCS maintenance[C]. International Conference on Virtual Reality and Intelligent Systems,2020,1:143-146.
[6]
Xiangyang Li, Qinhe Gao, Collaborative virtual maintenance training system of complex equipment based on immersive virtual reality environment[J]. Assembly Automation,2012,32(1):72-85.
[7]
Liang Wang, Chao Shen, Bin Zhang, Shenglin Yan, Cloud-based virtual simulation system of wave motion characteristics[J]. Journal Citation Reports,2021,30(2):609-627.
[8]
Masaji Tanaka and Toshiaki Kaneeda. A Method of Reconstructing 3D Models from Sketches by Extracting Features[J]. Journal Of Advances In Information Technology,2014,5(3):74-78.
[9]
Huynh Cao Tuan, Do Nang Toan, and Lam Thanh Hien. Automatic Selection of Key Points for 3D-Face Deformation[J]. Journal Of Advances In Information Technology,2022,13(4):332-337.
[10]
Aleksandr V. Mezhenin 1, Vera V. Izvozchikova 2, and Ivan A. Mezhenin. Evaluation of Illumination in 3D Scenes Based on Heat Maps Comparison[J],2023,13(4):601-605.

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  1. Optical Motion Capture Equipment Installation Training Web3D Virtual Simulation System

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    ICCPR '23: Proceedings of the 2023 12th International Conference on Computing and Pattern Recognition
    October 2023
    589 pages
    ISBN:9798400707988
    DOI:10.1145/3633637
    Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than the author(s) must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected].

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    Association for Computing Machinery

    New York, NY, United States

    Publication History

    Published: 28 February 2024

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    Author Tags

    1. Web3D virtual simulation
    2. installation training
    3. optical motion capture

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