Abstract
Global Engineering Education Accreditation (GEEA) is an internationally accepted quality assurance system for engineering education in universities, and technology competitions for college students are also considered important approaches to achieve the educational objectives and meet graduation requirements of GEEA in practice aspects. In this paper, the competency of guiding teachers of technology competitions for Chinese college students is evaluated through a case of National Competition of Transportation Science and Technology for Students (NACTranS). Firstly, 7 theoretical hypotheses of the modified structural equation modeling (SEM) for competency were developed by concentrating on some principles pertaining to the key concepts of GEEA. Secondly, competition results were set as the dependent variable and 3 dimensions of competition (topic selecting, works producing and team managing) were set as the independent variables under the modified SEM. Meanwhile, both administrative ranks and regional locations of universities where guiding teachers work were set as intervening vectors so as to explain the formation mechanisms of competency. Thirdly, a case study of NACTranS data from 68 universities in China's mainland was done through modified SEM calculating. The conclusions indicate that competency of guiding teachers is not only represented by 3 dimensions but also indirectly manipulated by 2 intervening vectors. According to the case calculating by modified SEM, the determinant of guiding teachers’ performance in topic selecting is the administrative ranks of universities, whereas their performance in works producing is dictated by the regional locations of universities. Various improvements on the competency of guiding teachers can be carried out in schools of engineering in Chinese universities, such as sufficient academic communications, efficient industry-university-research cooperation and so on.
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References
Chen, T., & Shao, Y. (2018). Ideas and reality: An exploratory analysis for development trend of higher education of engineering after signing the Washington accord in China. Journal of Higher Education Management, 12(01), 54–60.
Chen, Y.-C. (2016). The drive behind international student loyalty in higher-educational institutions: A structural equation model. The Asia-Pacific Education Researcher, 25(2), 315–323.
Costa, D., & Zha, Q. (2020). Chinese higher education: the role of the economy and projects 211/985 for system expansion. Ensaio Avaliação e Políticas Públicas Em Educação, 28(4), 885–908.
Duan, N., & Zhang, M. (2012). Competency model development and validation for university faculty. Journal of Psychological Science, 35(05), 1240–1246.
Feng, T., Quan, X., & Cao, Y. (2018). The logical starting point for the reform of scientific research cultivation mechanism in chinese research universities from the perspective of “two level first class.” Science and Technology Management Research, 38(14), 100–104.
Gora, A. A., Tefan, S. C., Popa, T. C., & Albu, C. F. (2019). Students’ perspective on quality assurance in higher education in the context of sustainability: a pls-sem approach. Sustainability, 11, 4793.
Hair, J. F., Black, W. C., Babin, B. J., & Anderson, R. E. (2014). Multivariate data analysis: A global perspective.
Herppich, S., Praetorius, A. K., FöRster, N., Glogger-Frey, I., Karst, K., Leutner, D., et al. (2017). Teachers assessment competence: integrating knowledge-, process-, and product-oriented approaches into a competence-oriented conceptual model. Teaching and Teacher Education, 76, 181–193.
Hey, R. B. (2017). Performance management for the oil, gas, and process industries. Risk management, 159–175.
Hodgson, R. M., & Williams, B. R. (2007). Engineering education, accreditation and the bologna declaration: A New Zealand view. The International Journal of Electrical Engineering and Education, 44(2), 124–128.
Jie, F., & Hui, H. (2012). Recent concerned issues of regional development in china and the interpretations of economic geography. Economic Geography, 32(01), 1–6.
Kluemper, D. H., Mclarty, B. D., Bishop, T. R., & Sen, A. (2015). Interviewee selection test and evaluator assessments of general mental ability, emotional intelligence and extraversion: Relationships with structured behavioral and situational interview performance. Journal of Business and Psychology, 30(3), 543–563.
Li, Z. Y. (2020). Recognition on graduation requirements and their formulation-from the perspective of engineering education certification. Research in Higher Education of Engineering, 05, 1–10.
McClelland, D. C. (1973). Testing for competence rather than for intelligence. American Psychologist, 28(1), 1–14.
Memon, J. A., Demirdögen, R. E., & Chowdhry, B. S. (2009). Achievements, outcomes and proposal for global accreditation of engineering education in developing countries. Procedia—Social and Behavioral Sciences, 1(1), 2557–2561.
Musah, M. B., Ali, H., Al-Hudawi, S., Tahir, L. M., Daud, K., & Hamdan, R. (2015). Determinants of students' outcome: A full-fledged structural equation modelling approach. Social Science Electronic Publishing.
Naqvi, S. R., Akram, T., Haider, S. A., Khan, W., Kamran, M., Muhammad, N., & Nawaz Qadri, N. (2019). Learning outcomes and assessment methodology: Case study of an undergraduate engineering project. The International Journal of Electrical Engineering & Education, 56(2), 140–162.
Oluwasuji, D. J., Onajite, J. G., & Angappa, G. (2018). A framework for assessing quantity surveyors’ competence. Benchmarking an International Journal, 25, 00–00.
Overstreet, R. E., Hanna, J. B., Byrd, T. A., Cegielski, C. G., & Hazen, B. T. (2013). Leadership style and organizational innovativeness drive motor carriers toward sustained performance. International Journal of Logistics Management, 24(2), 247–270.
Shehnaz, T., Farhad, U., Ahmed, Z., et al. (2019). Entrepreneurial competencies and smes’ growth: the mediating role of network competence. Asia Pacific Journal of Business Administration, 11, 1.
Sun, J., Zhang, W., Cui, Y., Wang, D. L., & Liu, X. (2018). The concept and practice of continuous improvement of engineering education accreditation. University Education, 07, 71–73+86.
Washington, D. C. (2001). The American Customer Satisfaction Index (ACSI) and its Value in Measuring Customer Satisfaction. Federal Consulting Group.
Wen, X. L., Sun, L. Y., Shao, X. B., Sheng, D. H., Tang, Y. D., & School, A. (2017). Strengthening of technology competition and promotion of engineering education professional certification. Journal of Electrical and Electronic Education, 39(01), 6–8.
Williamson, O. E. (2015). Strategy research: Governance and competence perspectives. Strategic Management Journal, 20(12), 1087–1108.
Yin, X. G., & Yan, X. U. (2011). Research on the influencing factors of competency of college-graduate village officials by sem. Soft Science, 25(08), 108–111.
Zhang, S. B., & Luo, Y. (2009). The cultivation of innovation ability of xihua’s transportation engineering from nactrans. Logistics Engineering and Management, 31(02), 114–116.
Zhang, X., Huang, Q. J., Geng, H., & Chen, Y. (2020). The Role of Science and Technology Competition in the Cultivation of Graduate Students’ Innovative Ability. Journal of Higher Education Research, 43(04), 107–110+114.
Funding
This work was financially supported by the project of national first-class specialty of China (transportation specialty, XAUAT) and the Social Science Foundation of Shaanxi Province, China (Grant No. 2018S39).
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Zhang, Q., Ding, X., Wang, Qp. et al. Competency of guiding teachers of technology competitions for Chinese college students under the global engineering education accreditation. Int J Technol Des Educ 33, 1819–1833 (2023). https://doi.org/10.1007/s10798-022-09796-5
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DOI: https://doi.org/10.1007/s10798-022-09796-5