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Lund, H. B., & Karlsen, A. (2020). The importance of vocational education institutions in manufacturing regions: adding content to a broad definition of regional innovation systems. Industry and Innovation, 27(6), 660-679.LundH. B.KarlsenA. (2020). The importance of vocational education institutions in manufacturing regions: adding content to a broad definition of regional innovation systems. Industry and Innovation, 27(6), 660-679.Search in Google Scholar
Alias, S. Z., Selamat, M. N., Alavi, K., & Arifin, K. (2018). Industry 4.0: A systematic review in technical and vocational education and training. Jurnal Psikologi Malaysia, 32(4).AliasS. Z.SelamatM. N.AlaviK.ArifinK. (2018). Industry 4.0: A systematic review in technical and vocational education and training. Jurnal Psikologi Malaysia, 32(4).Search in Google Scholar
Wen, Z., Cui, X., & Lu, Y. (2023). Build an Integrated Scene Teaching System for Additive Manufacturing Based on the Integration of Production and Education. In SHS Web of Conferences (Vol. 157, p. 03022). EDP Sciences.WenZ.CuiX.LuY. (2023). Build an Integrated Scene Teaching System for Additive Manufacturing Based on the Integration of Production and Education. In SHS Web of Conferences (Vol.157, p. 03022). EDP Sciences.Search in Google Scholar
Coşkun, S., Kayıkcı, Y., & Gençay, E. (2019). Adapting engineering education to industry 4.0 vision. Technologies, 7(1), 10.CoşkunS.KayıkcıY.GençayE. (2019). Adapting engineering education to industry 4.0 vision. Technologies, 7(1), 10.Search in Google Scholar
Li, X., Huang, Z., & Ning, W. (2023). Intelligent manufacturing quality prediction model and evaluation system based on big data machine learning. Computers and Electrical Engineering, 111, 108904.LiX.HuangZ.NingW. (2023). Intelligent manufacturing quality prediction model and evaluation system based on big data machine learning. Computers and Electrical Engineering, 111, 108904.Search in Google Scholar
Starshinova, T. A., Larionova, O. A., & Saifullin, R. S. (2016). Integrative training of engineer in globalized world. Samara Journal of Science, 5(2), 181-184.StarshinovaT. A.LarionovaO. A.SaifullinR. S. (2016). Integrative training of engineer in globalized world. Samara Journal of Science, 5(2), 181-184.Search in Google Scholar
Kolga, V. V., & Onisiforova, E. V. (2021). Formation of competencies of an engineer. In Modern Global Economic System: Evolutional Development vs. Revolutionary Leap 11 (pp. 349-358). Springer International Publishing.KolgaV. V.OnisiforovaE. V. (2021). Formation of competencies of an engineer. In Modern Global Economic System: Evolutional Development vs. Revolutionary Leap 11 (pp. 349-358). Springer International Publishing.Search in Google Scholar
Mutohhari, F., Sutiman, S., Nurtanto, M., Kholifah, N., & Samsudin, A. (2021). Difficulties in Implementing 21st Century Skills Competence in Vocational Education Learning. International Journal of Evaluation and Research in Education, 10(4), 1229-1236.MutohhariF.SutimanS.NurtantoM.KholifahN.SamsudinA. (2021). Difficulties in Implementing 21st Century Skills Competence in Vocational Education Learning. International Journal of Evaluation and Research in Education, 10(4), 1229-1236.Search in Google Scholar
Astuti, M., Arifin, Z., Nurtanto, M., Mutohhari, F., & Warju, W. (2022). The maturity levels of the digital technology competence in vocational education. Int J Eval & Res Educ ISSN, 2252(8822), 8822.AstutiM.ArifinZ.NurtantoM.MutohhariF.WarjuW. (2022). The maturity levels of the digital technology competence in vocational education. Int J Eval & Res Educ ISSN, 2252(8822), 8822.Search in Google Scholar
Li, C., & Padua, S. A. (2024). Research on the Practice of the Long-Term Digital Evaluation for Chemistry Students and Field Engineer Training Path based on Intelligent Teaching. Education Reform and Development, 6(5), 141-146.LiC.PaduaS. A. (2024). Research on the Practice of the Long-Term Digital Evaluation for Chemistry Students and Field Engineer Training Path based on Intelligent Teaching. Education Reform and Development, 6(5), 141-146.Search in Google Scholar
Li, B. H., Hou, B. C., Yu, W. T., Lu, X. B., & Yang, C. W. (2017). Applications of artificial intelligence in intelligent manufacturing: a review. Frontiers of Information Technology & Electronic Engineering, 18(1), 86-96.LiB. H.HouB. C.YuW. T.LuX. B.YangC. W. (2017). Applications of artificial intelligence in intelligent manufacturing: a review. Frontiers of Information Technology & Electronic Engineering, 18(1), 86-96.Search in Google Scholar
Li, L., Qu, T., Liu, Y., Zhong, R. Y., Xu, G., Sun, H., & Ma, C. (2020). Sustainability assessment of intelligent manufacturing supported by digital twin. IEEE Access, 8, 174988-175008.LiL.QuT.LiuY.ZhongR. Y.XuG.SunH.MaC. (2020). Sustainability assessment of intelligent manufacturing supported by digital twin. IEEE Access, 8, 174988-175008.Search in Google Scholar
Zhao, B., Xudong, H., Gao, D., & Xu, L. (2020). Construction and evaluation of talent training mode of engineering specialty based on excellence engineer program. SAGE Open, 10(2), 2158244020922889.ZhaoB.XudongH.GaoD.XuL. (2020). Construction and evaluation of talent training mode of engineering specialty based on excellence engineer program. SAGE Open, 10(2), 2158244020922889.Search in Google Scholar
Plutenko, A. D., Leyfa, A. V., Kozyr, A. V., & Haletskaya, T. V. (2018). Specific Features of Vocational Education and Training of Engineering Personnel for High-Tech Businesses. European Journal of Contemporary Education, 7(2), 360-371.PlutenkoA. D.LeyfaA. V.KozyrA. V.HaletskayaT. V. (2018). Specific Features of Vocational Education and Training of Engineering Personnel for High-Tech Businesses. European Journal of Contemporary Education, 7(2), 360-371.Search in Google Scholar
Jabarullah, N. H., & Iqbal Hussain, H. (2019). The effectiveness of problem-based learning in technical and vocational education in Malaysia. Education+ Training, 61(5), 552-567.JabarullahN. H.Iqbal HussainH. (2019). The effectiveness of problem-based learning in technical and vocational education in Malaysia. Education+ Training, 61(5), 552-567.Search in Google Scholar
Van den Beemt, A., MacLeod, M., Van der Veen, J., Van de Ven, A., Van Baalen, S., Klaassen, R., & Boon, M. (2020). Interdisciplinary engineering education: A review of vision, teaching, and support. Journal of engineering education, 109(3), 508-555.Van den BeemtA.MacLeodM.Van der VeenJ.Van de VenA.Van BaalenS.KlaassenR.BoonM. (2020). Interdisciplinary engineering education: A review of vision, teaching, and support. Journal of engineering education, 109(3), 508-555.Search in Google Scholar
Lantada, A. D. (2020). Engineering education 5.0: Continuously evolving engineering education. International Journal of Engineering Education, 36(6), 1814-1832.LantadaA. D. (2020). Engineering education 5.0: Continuously evolving engineering education. International Journal of Engineering Education, 36(6), 1814-1832.Search in Google Scholar
Wang, S., Meng, J., Xie, Y., Jiang, L., Ding, H., & Shao, X. (2023). Reference training system for intelligent manufacturing talent education: platform construction and curriculum development. Journal of Intelligent Manufacturing, 1-40.WangS.MengJ.XieY.JiangL.DingH.ShaoX. (2023). Reference training system for intelligent manufacturing talent education: platform construction and curriculum development. Journal of Intelligent Manufacturing, 1-40.Search in Google Scholar
Lai, Z. H., Tao, W., Leu, M. C., & Yin, Z. (2020). Smart augmented reality instructional system for mechanical assembly towards worker-centered intelligent manufacturing. Journal of Manufacturing Systems, 55, 69-81.LaiZ. H.TaoW.LeuM. C.YinZ. (2020). Smart augmented reality instructional system for mechanical assembly towards worker-centered intelligent manufacturing. Journal of Manufacturing Systems, 55, 69-81.Search in Google Scholar
Wang, S., Jiang, L., Meng, J., Xie, Y., & Ding, H. (2021). Training for smart manufacturing using a mobile robot-based production line. Frontiers of Mechanical Engineering, 16, 249-270.WangS.JiangL.MengJ.XieY.DingH. (2021). Training for smart manufacturing using a mobile robot-based production line. Frontiers of Mechanical Engineering, 16, 249-270.Search in Google Scholar
Xiaojun Liu,Xu Shouzhi,Yang Li,Mei Yu,Kai Ma,Rui Chen & Wen Yang. (2024). Industry-education Integration Oriented Information Security Training System for Smart Grid. Frontiers in Educational Research(10),XiaojunLiuXuShouzhiYangLiMeiYuKaiMaRuiChenWenYang (2024). Industry-education Integration Oriented Information Security Training System for Smart Grid. Frontiers in Educational Research(10),Search in Google Scholar
Weixia Yang,Congli Xie & Lindong Ma. (2024). Tripartite evolutionary game and simulation analysis of brand enhancement for geographical indications agri-food. China Agricultural Economic Review(2),340-367.WeixiaYangCongliXieLindongMa (2024). Tripartite evolutionary game and simulation analysis of brand enhancement for geographical indications agri-food. China Agricultural Economic Review(2),340-367.Search in Google Scholar
Yongsheng Wang. (2024). Exploring Strategies for Promoting Overseas Alumni Giving Activities in Colleges and Universities Based on Coupled Models. Applied Mathematics and Nonlinear Sciences(1),YongshengWang (2024). Exploring Strategies for Promoting Overseas Alumni Giving Activities in Colleges and Universities Based on Coupled Models. Applied Mathematics and Nonlinear Sciences(1),Search in Google Scholar
Xinmei Wang,Zhenzhu Liu,Feng Liu & Leimin Wang. (2021). The Estimation of Image Jacobian Matrix with Time-Delay Compensation:Regular papers. Journal of Advanced Computational Intelligence and Intelligent Informatics(6),982-988.XinmeiWangZhenzhuLiuFengLiuLeiminWang (2021). The Estimation of Image Jacobian Matrix with Time-Delay Compensation:Regular papers. Journal of Advanced Computational Intelligence and Intelligent Informatics(6),982-988.Search in Google Scholar