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Application of Mechanical Electronic Engineering Technology in Sensor Measurement System

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DOI: 10.23977/jemm.2023.080305 | Downloads: 128 | Views: 879


Shaomin Lu 1, Yiqing Huang 1, Siyu Hou 1, Wei Li 1


1 College of Mechanical and Transportation, Southwest Forestry University, Kunming, Yunnan, 650000, China

Corresponding Author

Shaomin Lu


With the development of the times and technological progress, sensor measurement technology is also constantly developing. Mechatronics engineers are different from traditional mechatronics engineers. They utilize the manufacturing technology of mechatronics and the power of mechatronics engineers to stand at the forefront of the mechatronics technology revolution. New mechatronics engineers have been fully developed and gradually become mechatronics engineers. Today, the rise of mechanical Electronic engineering technology undoubtedly brings opportunities and challenges to sensor measurement systems. While replacing the technology and methods of old sensor measurement systems, it also brings important innovations. This paper mainly introduced the current situation, evolution and future prospects of mechanical and Electronic engineering technology, aiming at promoting its development and evolution, and discussed the application of mechanical and Electronic engineering technology in sensor measurement systems. Finally, the experimental analysis verified that the sensor measurement system based on mechanical Electronic engineering technology was 0.0785, 0.03%, less than 2um and less than 0.04% higher in sensitivity, linearity, return error and repeatability than the sensor measurement system with traditional technology, which showed the superiority of its overall performance.


Sensor Measurement System, Mechanical Electronic Engineering Technology, Mechatronics Integration, Automatic Detection Function


Shaomin Lu, Yiqing Huang, Siyu Hou, Wei Li, Application of Mechanical Electronic Engineering Technology in Sensor Measurement System. Journal of Engineering Mechanics and Machinery (2023) Vol. 8: 28-36. DOI:


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