DOI:
https://doi.org/10.71451/ISTAER2519Keywords:
Virtual reality; Vehicle design;Virtual reality; Vehicle design; Ergonomics; Human-computer interaction; Safety assessment Ergonomics; Human-computer interaction; Safety assessmentAbstract
With the development of intelligence and personalization in the automotive industry, the application of virtual reality (VR) technology in vehicle ergonomics and human-computer interaction design has become an important research field. This paper explores how virtual reality technology can play a role in vehicle seat design, cockpit layout, human-computer interaction interface and safety assessment. Through VR technology, designers can simulate and optimize different design schemes in a virtual environment, thereby improving the efficiency and accuracy of the design and reducing discomfort and potential safety hazards. In addition, virtual reality also provides a more intuitive and convenient way for drivers to interact with the on-board system, further improving the driving experience and the level of vehicle intelligence. Although virtual reality technology still faces challenges in terms of equipment cost and comfort, with the development of hardware technology and the integration of cross-domain technologies, VR has broad application prospects in automotive design. In the future, virtual reality technology will play a greater role in improving driving safety, comfort and intelligence, and promote innovation and development in the automotive industry.
References
[1] Katona, J. (2021). A review of human–computer interaction and virtual reality research fields in cognitive InfoCommunications. Applied Sciences, 11(6), 2646. DOI: https://doi.org/10.3390/app11062646
[2] da Silva, A. G., Mendes Gomes, M. V., & Winkler, I. (2022). Virtual reality and digital human modeling for ergonomic assessment in industrial product development: a patent and literature review. Applied Sciences, 12(3), 1084. DOI: https://doi.org/10.3390/app12031084
[3] Chen, Y., Wang, X., & Xu, H. (2021). Human factors/ergonomics evaluation for virtual reality headsets: a review. CCF Transactions on Pervasive Computing and Interaction, 3(2), 99-111. DOI: https://doi.org/10.1007/s42486-021-00062-6
[4] Caputo, F., Greco, A., D’Amato, E., Notaro, I., & Spada, S. (2018). On the use of Virtual Reality for a human-centered workplace design. Procedia Structural Integrity, 8, 297-308. DOI: https://doi.org/10.1016/j.prostr.2017.12.031
[5] Ma, C., & Han, T. (2019). Combining virtual reality (VR) technology with physical models–a new way for human-vehicle interaction simulation and usability evaluation. In HCI in Mobility, Transport, and Automotive Systems: First International Conference, MobiTAS 2019, Held as Part of the 21st HCI International Conference, HCII 2019, Orlando, FL, USA, July 26-31, 2019, Proceedings 21 (pp. 145-160). Springer International Publishing.
[6] DanNuo, J., Xin, H., JingHan, X., & Ling, W. (2019, July). Design of Intelligent Vehicle Multimedia Human-Computer Interaction System. In IOP Conference Series: Materials Science and Engineering (Vol. 563, No. 5, p. 052029). IOP Publishing. DOI: https://doi.org/10.1088/1757-899X/563/5/052029
[7] Zhang, F. (2021). Human–Computer Interactive Gesture Feature Capture and Recognition in Virtual Reality. Ergonomics in Design, 29(2), 19-25. DOI: https://doi.org/10.1177/1064804620924133
[8] Pandey, A., Panday, S. P., & Joshi, B. (2023). Design and development of applications using human-computer interaction. In Innovations in Artificial Intelligence and Human-Computer Interaction in the Digital Era (pp. 255-293). Academic Press. DOI: https://doi.org/10.1016/B978-0-323-99891-8.00011-5
[9] Riegler, A., Riener, A., & Holzmann, C. (2021). A systematic review of virtual reality applications for automated driving: 2009–2020. Frontiers in human dynamics, 3, 689856. DOI: https://doi.org/10.3389/fhumd.2021.689856
[10] Brill, S., Payre, W., Debnath, A., Horan, B., & Birrell, S. (2023). External human–machine interfaces for automated vehicles in shared spaces: A review of the human–computer interaction literature. Sensors, 23(9), 4454. DOI: https://doi.org/10.3390/s23094454
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2025-05-28
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Copyright (c) 2025 International Scientific Technical and Economic Research
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How to Cite
Application of Virtual Reality Technology in Vehicle Ergonomics and Human-Computer Interaction. (2025). International Scientific Technical and Economic Research , 36-44. https://doi.org/10.71451/ISTAER2519
