Flexible sensors for mechatronic engineering education

被引:0
作者
Song D. [1 ]
Chen X. [1 ]
Wang M. [1 ]
Xiao X. [1 ]
机构
[1] College of Engineering, China Agricultural University, Beijing
来源
Sensors International | 2023年 / 4卷
关键词
Education; Flexible sensors; Mechatronic engineering;
D O I
10.1016/j.sintl.2023.100236
中图分类号
G4 [教育];
学科分类号
04 ; 0401 ;
摘要
Mechatronics has become an inevitable trend in the development of the industry, manufacturing industry in the rapid development of today has also driven the innovation of technology. In the development process of mechatronics, flexible sensors stand out, flexible sensors have the characteristics of flexibility, and a wider range of applications, which is the frontier direction of contemporary electromechanical development. Mechanical and electronic engineering is for the traditional engineering disciplines, the teaching process of students to accept concepts and other content ability is poor, lack of interest, the need for new solutions to solve problems. And by using flexible sensors in exemplary teaching, electromechanical knowledge can be taught more effectively, which can enhance students' vision, learning ability, indepe, dance, and innovation. In this paper, we outline the principles of flexible sensors, and sensors in electromechanical engineering, the advantages and disadvantages of each type of flsensorsensors, and their broad prospects for electromechanical teaching applications. © 2023 The Authors
引用
收藏
相关论文
共 113 条
  • [1] Muratov K.R., Gashev E.A., Ablyaz T.R., Sidhu S.S., Formation of the Roughness during honing with raster kinematics of the tool, Mater. Today Proc., 38, pp. 1484-1487, (2021)
  • [2] Yudin I., Berestov A., Moshev A., Ovcharenko E., Setyanova A., Application of the CDIO standards for cyber-physical education in mechatronics and Robotics in a Research university on the example of development of 3D-modeling and design skills, Procedia Comput. Sci., 190, pp. 812-816, (2021)
  • [3] Lauzikas M., Miliute A., Morozovaite V., Karpicius D., Effectiveness and efficiency criteria for strategic application of mechatronics in business processes, Insights into Reg. Dev, 3, pp. 79-105, (2021)
  • [4] Afolalu S.A., Ikumapayi O.M., Abdulkareem A., Soetan S.B., Emetere M.E., Ongbali S.O., Enviable Roles of manufacturing processes in sustainable fourth industrial revolution – a case study of mechatronics, Mater. Today Proc., 44, pp. 2895-2901, (2021)
  • [5] Ai Q., Meng W., Bensaali F., Zhai X., Liu L., Alaraje N., Editorial for FGCS special issue: intelligent IoT systems for healthcare and Rehabilitation, Future Generat. Comput. Syst., 125, pp. 770-773, (2021)
  • [6] Frochte J., Lemmen M., Schmidt M., Seamless integration of machine learning contents in mechatronics curricula, Proc. 2018 19th Int. Conf. Res. Educ. Mechatronics, pp. 75-80, (2018)
  • [7] Nnodim C.T., Arowolo M.O., Agboola B.D., Ogundokun R.O., Abiodun M.K., Future trends in mechatronics, IAES Int. J. Rob. Autom., 10, pp. 24-31, (2021)
  • [8] Chen X., Application of Intelligent Control in Mechatronics System[J], (2023)
  • [9] Huang Y., Hao J., Construction of Wisdom Classroom for English Majors Based on Back Propagation, pp. 235-241, (2022)
  • [10] Blackman T., Raymond Williams, and the New Industrial Trainers: A Critique and a Proposal, 48, pp. 555-569, (2021)
12345678910