Welcome to Francis Academic Press

The Frontiers of Society, Science and Technology, 2023, 5(10); doi: 10.25236/FSST.2023.051019.

Design of vehicle steering system testing training in augmented reality environment

Author(s)

Jieshu Zhang, Sirong Niu, Jiaying Li, Haiyang Chu, Yuanyuan Xie

Corresponding Author:
Jieshu Zhang
Affiliation(s)

Engineering Department, Huanghe Science and Technology University, Zhengzhou, China

Abstract

In order to improve steering system detection technology, with the help of Solidworks software and Unity3D platform. Using dynamic simulation and VR technology, a design project of automotive steering system in augmented reality environment was studied, an interactive steering system testing platform was implemented. Experiences include import modules, interaction modules, and UI interface modules through models. Through experiments with more than 100 students, it has been analyzed that under friendly human-computer interaction, this platform can not only achieve interpretation of the vehicle detection process, but also enable testers to become more familiar with and master the detection process, improving detection efficiency. It is also possible to integrate the testing process into the classroom through three-dimensional display, providing students with a novel and vivid, people-centered teaching experience, and achieving good practical results. The project initially explores the application of virtual simulation in intelligent direction and interactive control of vehicle testing, providing beneficial assistance for vehicle testing training and engineering applications.

Keywords

Virtual Interactive; Steering System; Detection

Cite This Paper

Jieshu Zhang, Sirong Niu, Jiaying Li, Haiyang Chu, Yuanyuan Xie. Design of vehicle steering system testing training in augmented reality environment. The Frontiers of Society, Science and Technology (2023) Vol. 5, Issue 10: 119-126. https://doi.org/10.25236/FSST.2023.051019.

References

[1] Xu Jinli, Niu Qiangqiang & Chen Chunxiao (2021). Design of a virtual disassembly system for automotive rear axle in augmented reality environment Mechanical Design and Manufacturing (06), 215-218 doi:10.19356/j.cnki.1001-3997.2021.06.049.

[2] S. Naidoo Lingamanaik, N. Nadarajah, B. Oh, C. Ou Yang, Li Lidong, Su Xiaoke. (2023). Improving the efficiency of fault diagnosis and maintenance of railway transportation equipment using augmented reality technology Smart Rail Transit (01), 86-90

[3] Liu Jianan, Mao Jize, He Jian, Hu Jinhong&Jing Weiliang (2022). Research on the construction of sustainable development system for virtual simulation experiment teaching China Modern Education Equipment (23), 20-23 doi:10.13492/j.cnki.cmee. 2022.23.045.

[4] Zhu Cong, Bai Yaming, Lin Wei'an, Zhou Luohui, Wang Teng and Zhang Guimin (2022). To explore the application of augmented reality technology in preoperative planning for Stanford type A aortic dissection Chinese Cardiovascular Disease Research (03), 260-265.

[5] He M Z W .Vibration control analysis of vehicle steering system based on combination of finite-element analysis and modal testing[J].Journal of vibration and control: JVC, 2020, 26(1a2).

[6] Wang Jing & Si Zhanjun (2020). Design of a virtual assembly system for the printing structure of a PZ1740E offset press Packaging Engineering (05), 197-200. doi: 10.19554/j.cnki.1001-3563. 2020. 05. 028

[7] Zhou X, Zhao W, Wang C .Performance Analysis and Multi-objective Optimization Design of Vehicle Electro-hydraulic Compound Steering System[J]. DEStech Transactions on Environment Energy and Earth Science, 2019(iceee). DOI:10.12783/dteees/iceee2018/27802.

[8] Liu Liyan, Yu Lulu&Chi Yuanyuan (2020). Design of Virtual Assembly Teaching System for Automobile Steering System Based on Unity3D System Simulation Technology (02), 131-134. doi: 10. 16812/ j.cnki.cn31-145.2020.02.014

[9] Fahami S M H, Zamzuri H, Mazlan S A,et al.The Design of Vehicle Active Front Steering Based on Steer by Wire System[J].Advanced Science Letters, 2013, 19(1):61-65. DOI:info:doi/10.1166/asl.2013.4706.

[10] Ge Congbing, Chen Jian&Yan Jihao (2021). Reservoir Dam Patrol Inspection and Training System Based on Unity3D Journal of Water Resources and Transportation Engineering (06), 111-115.

[11] Sprehn K A, Endsley T C, Ryan K J .Utilizing Steering Entropy as a Measure of Performance in Head-mounted Augmented Reality [J]. Proceedings of the Human Factors and Ergonomics Society Annual Meeting, 2019, 63(1):63-67.DOI:10.1177/1071181319631148.

[12] Gan Zhimei, Gao Wei, Wei Zhixiang, Wang Qingsong, and Liu Hongfeng (2023). Development of a Virtual Disassembly and Assembly Training System for Automotive Starters Based on Unity3D. Journal of Anyang Institute of Technology (02), 48-51+63 Doi: 10.19329/j.cnki.1673-2928.2023.02.009

[13] Li Jie, Tang Xinxing&Liu Guangzheng (2023). Research on the Application of AR Interactive Packaging Design. Green Packaging (05), 96-100 Doi: 10.19362/j.cnki.cn10-1400/tb.2023.05.018

[14] Gong Ping, He Lingsong&Gao Pengyu (2023). A Data Transmission Protocol for Digital Twin Manufacturing Systems in XML Format. Manufacturing Automation (03), 70-75

[15] Zhou Yucheng, Han Sifan&Huang Rong (2018). Application of Traditional Elements in UI Interface Design. Technology Perspective (03), 35-36 Doi: 10.19694/j.cnki.issn2095-2457. 2018.03.011