Design Research on Auxiliary Equipment for VR Virtual Interactive Scene Creation_Vol. 2 No. 3 (JES 2024)_Journal of Engineering System (ISSN: 2959-0604)

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Design Research on Auxiliary Equipment for VR Virtual Interactive Scene Creation

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DOI: https://doi.org/10.62517/jes.202402301

Author(s)

Xiangyu Zhang, Jingmiao Shi, Peng Zhou, Qian Wang*, Wenjing Cao, Jiaming Hu, Xiao Liu, Weiqun Lu

Affiliation(s)

Guangzhou Railway Vocational and Technical College, Guangzhou, Guangdong, China *Corresponding Author.

Abstract

This paper introduces an auxiliary device specifically designed for VR virtual interactive scene creation. This auxiliary device aims to solve the cumbersome problem of manually adjusting the angle of existing monitor stands. This design ensures that the monitor maintains a comfortable angle for the user during operation, offering numerous advantages and positive effects. Through a detailed explanation of the design principles, function implementation, and performance testing of the device, the potential application of this auxiliary device in VR scene creation is demonstrated. By analyzing and improving existing technologies, a new solution is proposed to enhance the convenience and efficiency of monitor angle adjustment.

Keywords

VR Virtual Interactive Scene; Auxiliary Equipment; Monitor Stand; Automatic Adjustment

References

[1]Ren Xiaocheng, Qiu Chunting. Research on 3D Interactive Scene Virtual Reality Modeling and Simulation. Computer Simulation, 2024, 41(01): 217-221. [2]Du Wentao, Gao Yuan, An Ping, Tian Xinyu, He Junqin, Fang Ziwang. Design of Intelligent Monitor Stand Based on Human Sitting Posture Recognition. Electronic Production, 2019, (17): 3-6. [3]Yu Junhui, Yu Yongjie, Wang Chunli. Design and Research of a Mobile Monitor Stand for Preventing Cervical Spondylosis. Electronic World, 2019, (13): 192-193. [4]Dili Airem·Tuerdiyusuf, Guo Bin, Fu Yonglong. Design of Adjustable Monitor Stand Based on STM32. Computer Knowledge and Technology, 2024, 20(05): 103-106. [5]Chen Ruwei. Design of Automatic Adjustment Transmission Mechanism for Face Camera. China Machinery, 2023, (26): 10-13. [6]Wu Muyun, Luo Kai, Ni Minghui, Qin Fuhong, Li Yanlin. Design of Automatic Adjustable Monitor Stand System Based on MTCNN. Electronic Components and Information Technology, 2020, 4(09): 53-54+68. [7]Zhang Xu, Mao Qingzhou, Shi Chunlin, Shi Yixuan. A Fast Establishment Method for the Mapping Relationship between 3D Scanner Point Clouds and Panoramic Images. Journal of Zhejiang University (Engineering Edition), 1-11. [8]Fang Jicai, Ren Haipeng, Sun Yu. Research on an Adjustable Height Monitor Stand. Wireless Interconnection Technology, 2016, (22): 55-56. [9]Miao Chengjia. Analysis of the Application of AI Wearable Equipment and Visual Target Tracking Technology in Sports. Sports Equipment and Technology, 2024, (07): 162-164. [10]Shan Wei. Research on Human Posture Recognition Algorithm Based on Deep Learning. Heilongjiang Science, 2024, 15(10): 91-93.