Author(s)

Qingqing Hu ¹, Luyin Wu ¹, Lan Hu ¹, Huarong You ², Tenghui Long ²

Affiliation(s)

¹ School of Art and Media, Chongqing Metropolitan College of Science and Technology, Chongqing, China
² Chongqing Tongcheng Engineering Consulting Design Co., Ltd, Chongqing, China

Corresponding Author

Qingqing Hu

ABSTRACT

The development of Internet and artificial intelligence technology endows the traditional automobile industry with the color of intelligent and networked industry. The development of intelligent networked vehicles can improve the related transportation efficiency and solve the existing disadvantages such as environmental damage and energy depletion. As a testing ground for evaluating and verifying the quality and performance of vehicles, it will be the focus of its support system development. Therefore, this project has considerable practical application value. Based on the experience of planning and construction at home and abroad, this paper analyzes the comparison method of multi-scheme selection of overall planning, functional layout and road layout, estimates the cost and realizes the scheme evaluation of intelligent networked automobile proving ground. At the same time, the key points of scene design module are studied to provide reasonable design methods for its construction and implementation, and provide technical reference for the design of related fields.

KEYWORDS

Intelligent Network, Automobile Proving Ground, Planning and Design, Scene Design

CITE THIS PAPER

Qingqing Hu, Luyin Wu, Lan Hu, Huarong You, Tenghui Long, Research on Planning Scheme Evaluation and Scene Module Analysis of Intelligent Networked Automobile Proving Ground. Urban Transport Systems (2023) Vol. 3: 1-10. DOI: http://dx.doi.org/10.23977/uts.2023.030101.

REFERENCES

[1] Wan Jinming, Kang Cheng, Pan Xinfu. (2021) Research on the construction of networked testing environment for intelligent networked automobile open roads. Auto time, (21):193-194.
[2] Jia Jiaqi, Cui Xinjian, Wang Jugang. (2021) Present situation and development suggestions of intelligent networked automobile closed test site. Quality and Certification, (09):70-72.
[3] Jiang Feng, Si Yu, Tang Yafeng, Yue Huanhuan, Zhao Yun, Li Da. (2021) Present situation analysis and development suggestions of intelligent networked automobile test site. China Automobile, (01):24-29.
[4] Zheng Jianming, Zhang Jianjun, Song Liming, etc. (2020) Research on design technology of intelligent networked automobile closed proving ground. 2020 Proceedings of the annual meeting of China Automotive Engineering Society (1). 162-168.
[5] Ji Jianbo. (2020) Summary of construction status and site design of intelligent networked automobile closed test site. Urban roads and bridges and flood control, (08):325-327+32.
[6] Tao Yongfeng, Wu Yagang. (2019) Exploration of networked vehicle testing application based on urban expressway. China Traffic Informatization, (S1):105-108.
[7] Huang Yufeng, Gao Yipeng. (2019) Analysis of China's intelligent networked automobile technology and testing status. Automotive Practical Technology, (15):26-28+69.
[8] Deng Xiaofeng, Wang Runmin, Xu Zhigang, Liu Dingbei. (2019) Development Status of Intelligent Networked Vehicle Testing and Demonstration Base in China. Automotive Industry Research, (01):6-13.
[9] Ping Liu, Liu Chunjie, Zhao Tietuo. (2019) Planning, design and testing technology of intelligent networking test site. Highway Traffic Technology: Applied Technology Edition, 11: 328-330.
[10] Chen Guihua, Yu Shengbo, Li Qiao, Gong Weijie. (2020) Investigation on the Development of China Intelligent Networked Automobile Test Demonstration Zone. Journal of Automotive Engineering, 10 (2): 79-87.
[11] Kliewer Mark A., Bockoven Crystal G., Reeder Scott B., Bagley Anjuli R.,Sadowski Elizabeth A., Iruretagoyena Jesus Igor, Beninati Michael J., Fritsch Michael K. (2023) Ferumoxytol-enhanced MR demonstration of changes to internal placental structure in placenta accreta spectrum: Preliminary findings. Placenta, 134.86-79.
[12] Acheson Jonathan G., McFerran Aoife, Xu Dichu, Ziminska Monika, Goel Saurav, Lennon Alex B., Dunne Nicholas, Hamilton Andrew R. (2023) Hydrated behavior of multilayer polyelectrolyte-nanoclay coatings on porous materials and demonstration of shape memory effect. Surface & Coatings Technology, 458.45-57.
[13] Wei Qian. (2022) Product Shape Design Scheme Evaluation Method Based on Spatial Data Mining. Mathematical Problems in Engineering.
[14] Li Man, Ouyang Yuhong, Kang Wenqian, Che Xiangbei, Ye Ruixian. (2022) Decision Model of Wireless Communication Scheme Evaluation via Interval Number. Security and Communication Networks, 135.74-76.
[15] Hou Yuting, Xue Xiongzhi, Liu Chao, Xin Fei, Lin Yanhong, Wang Shuo. (2022) Marine Spatial Planning Scheme evaluation based on the conflict analysis system - A case study in Xiamen, China. Ocean and Coastal Management, 221.45-49.

Sponsors, Associates, and Links

---

• Advances in Naval Architecture and Ocean Engineering
  
  
• Frontiers in Traffic and Transportation Engineering
  
  
• Journal of Vehicle and Intelligent Transport System
  
  
• Journal of Connected Vehicles