How Human-Computer Interaction Work in An Intelligent Cockpit
DOI:
https://doi.org/10.54097/eccr1g74Keywords:
Human-Computer Interaction, intelligent cockpit, application.Abstract
As technology quickly develops, cockpit in automobile has developed from traditional mechanical seating into modern cockpit. This means more physical buttons are replaced by new car central control display. Human-Computer Interaction (HCI) plays an important role in intelligent cockpits to make these designs useable. This paper is going to introduce some of the latest design of HCI in intelligent cockpit. Start from the definition of HCI, this paper will introduce some application and design about HCI in intelligent cockpit. The first design is a language model that can record drivers’ driving habits so it can predict drivers’ behaviors and give out personal services. In the second paper, the author proposes a model based on YOLOv5s to capture and recognize gestures. A playing system is also designed, so together, drivers can control music playing by making different gestures. The last application is about AR-HUD. This display system has considered several factors of driver and different warning situation. It turns out that it can shorten drivers’ reaction time. In the discussion part, this paper points out that the future job should be based on optimizing computing models and ensure model performance in complex and real-life situations.
Downloads
References
[1] Feng B. Security design of passenger-vehicle intelligent cockpit systems based on deep learning. Internet Weekly. 2025; (1): 38 – 41.
[2] Licklider JC. Man-computer symbiosis. IRE Transactions on Human Factors in Electronics. 2008 May; 7 (1): 4 – 11.
[3] Zuo Y. Research on the application of human–computer interaction design in mobile phone products [Master’s thesis]. Qingdao University of Technology; 2013.
[4] Li Y, Zheng B. Design and development strategies of rehabilitation medical products under brain–computer interface technology. Footwear Technology and Design. 2025; 5 (7): 168 – 170.
[5] Dong S. Progress and challenges in human–computer interaction. Journal of Computer-Aided Design & Computer Graphics. 2004; (1): 1 – 13.
[6] Guo Q, Zhang J. The historical evolution, core drivers, and future trends of human–computer interaction (HCI).
[7] Chen Y, Li C, Yuan Q, Li J, Fan Y, Ge X, et al. Cockpit-Llama: Driver intent prediction in intelligent cockpit via large language model. Sensors (Basel). 2024; 25 (1): 64.
[8] Yan H. Gesture recognition technology for human–computer interaction in intelligent cockpits [Master’s thesis]. Xi’an University of Engineering; 2023.
[9] Ma J, Li Y, Zuo Y. Design and evaluation of ecological interface of driving warning system based on AR-HUD. Sensors. 2024; 24 (24): 8010.
[10] Jia Z, Sui Y, Qian L, Ren X, Zhao Y, Yao R, et al. Electrochromic windows with fast response and wide dynamic range for visible-light modulation without traditional electrodes. Nature Communications. 2024; 15 (1): 6110.
Downloads
Published
Issue
Section
License
Copyright (c) 2026 Academic Journal of Science and Technology
This work is licensed under a Creative Commons Attribution 4.0 International License.
How to Cite
