Development of a Cloud-Based Simulation Measurement Laboratory and Evaluation System based on Unity3D

Xiaoyang Liang

doi:10.62051/ijmee.v5n1.04

Authors

Xiaoyang Liang

DOI:

https://doi.org/10.62051/ijmee.v5n1.04

Keywords:

Virtual Simulation, Measuring Equipment, Mechanical Industry, Teaching Platform

Abstract

This paper presents the development of a virtual simulation teaching platform for measuring equipment in the mechanical industry, aimed at improving students' learning effectiveness and operational skills. Traditional teaching methods relying on physical hardware are costly and pose safety risks, while the virtual simulation platform offers a safe, repetitive, and resource-efficient learning environment. The platform is divided into four modules: measuring tool cognition, measuring tool experiment, measuring tool evaluation, and user management. Each module is meticulously designed to meet specific teaching and evaluation needs, covering everything from basic knowledge learning to practical skill development. By achieving the outlined objectives, this platform will contribute to the technological advancement and talent cultivation in the mechanical manufacturing industry, promoting the sustainable development of the industry.

References

[1] Lin M, San L, Ding Y. Construction of robotic virtual laboratory system based on Unity3D[C]//IOP Conference Series: Materials Science and Engineering. IOP Publishing, 2020, 768(7): 072084.

[2] Gold R, Grant A H, Hemberg E, et al. GUI-based, efficient genetic programming for unity3D[C]//Proceedings of the Genetic and Evolutionary Computation Conference Companion. 2022: 2310-2313.

[3] Lai Z, Cui Y, Zhao T, et al. Design of three-dimensional virtual simulation experiment platform for integrated circuit course[J]. Electronics, 2022, 11(9): 1437.

[4] Zhong H, Chen X, Shu W Q, et al. Research and development on 3D simulation training evaluation system of substation based on unity3D[J]. Applied Mechanics and Materials, 2015, 727: 987-990.

[5] Tong Changhong, Li Jianzheng, Liu Jinghua. (2005). Development and Application of Virtual Instruments. Gansu Science and Technology Review (02), 26-27.

[6] Tang Shusen, Li Bainian. (2005). Discussion on Virtual Instruments and Their Prospects in Laboratory Construction and Development. Gansu Science and Technology (09), 18-21.

[7] Gao Dajun & Yu Xiaofen. (2008). Design of an Interactive Virtual Laboratory for Coordinate Measuring Machines. Laboratory Research and Exploration (09), 58-60+84.

[8] Xue Xiaorong, Li Xiaofeng, Li Weihong & Shi Zhuo. (2019). Design and Implementation of a Virtual Experiment System for Antenna Measurement in a Microwave Anechoic Chamber Based on Unity3D. Laboratory Research and Exploration (12), 108-112.