ISSN: 2226-6348
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This study uses a systematic literature review method to analyze 30 high-quality literatures to comprehensively explore the application status of practice-oriented teaching strategies in engineering education, the effect of ability training, and the influencing factors of its implementation context. The study found that a variety of practical teaching strategies have been developed in the field of engineering education, including project-based learning, work-integrated learning, and service learning, and these strategies are undergoing a transformation from fragmented application to systematic integration. These teaching strategies aim to cultivate students' technical professional ability, general ability, and comprehensive literacy, but their effectiveness is affected by multiple contextual factors such as institutional environment, resource conditions, teacher roles, and industry participation. The evaluation method also shows a trend of change from single evaluation to multiple, from terminal to formative, and from teacher-led to multi-subject participation. The research results support an integrative, contextualized, and developmental view of engineering education reform, emphasizing the importance of systematic thinking and adaptive implementation, and providing theoretical guidance and practical paths for cultivating engineering talents that meet future needs.
Ahmed, S. M., & Madhuri G., & Reddy M. S., & Condoor, S. S. (2018). Skill development in freshmen by adopting project based learning-“introduction to engineering” course. Journal of Engineering Education Transformations. https://doi.org/10.16920/jeet/2018/v0i0/120886
Ajailia N., & Zerai, M., & Debbabi, N., & Damergi, A., & Dchicha, M. (2024). ETHICS, AI, AND SOCIETY: SHAPING RESPONSIBLE AI ENGINEERS WITH CDIO FRAMEWORK. Proceedings of the International CDIO Conference.
Anderson, K. R. (2019). Using a heat pump experiment with automated data acquistion to augment hands-on learning. ASME International Mechanical Engineering Congress and Exposition, Proceedings (IMECE). https://doi.org/10.1115/IMECE2019-10098
Atman, C. J., Sheppard, S. D., Turns, J., Adams, R. S., Fleming, L. N., Stevens, R., Streveler, R. A., Smith, K. A., Miller, R. L., Leifer, L. J., Yasuhara, K., and Lund, D. (2010) 'Enabling engineering student success: The final report for the Center for the Advancement of Engineering Education', San Rafael, CA: Morgan & Claypool Publishers.
Bermúdez, J. E., & Chiluiza, K., & Schellens, T., & Valcke, M. (2024). Exploring the Impact of Service-Learning Internships on Professional Skills Development in Engineering Students: A Scoping Review. Proceedings - Frontiers in Education Conference, FIE. https://doi.org/10.1109/FIE61694.2024.10893562
Bernhard, J. (2015) 'Is engineering education research a discipline? And does it matter?', in Research in Engineering Education Symposium (REES). Dublin, Ireland, pp. 1-8.
Besterfield-Sacre, M., Cox, M. F., Borrego, M., Beddoes, K., and Zhu, J. (2014) 'Changing engineering education: Views of U.S. faculty, chairs, and deans', Journal of Engineering Education, 103(2), pp. 193-219.
Bielefeldt, A. R., and Canney, N. E. (2014) 'Impacts of service-learning on the professional social responsibility attitudes of engineering students', International Journal for Service Learning in Engineering, 9(2), pp. 47-63.
Bill, V. (2022). Experiential Learning for Professional Skill Development Across an Engineering Undergraduate Program. Proceedings - Frontiers in Education Conference, FIE. https://doi.org/10.1109/FIE56618.2022.9962590
Bogacka, M., Pikon, K. (2017). Work in Progress: Combining active learning methods in engineering education. PROCEEDINGS OF 2017 IEEE GLOBAL ENGINEERING EDUCATION CONFERENCE (EDUCON2017).
Bolu, C. A., Musa, T. A., Domfang, M. C., Eletta, O. A. A., Dada, J. O., Brijmohan, Y., Wara, S. T., Elrayah, A. A. I., Mkandawire, T., Obiazi, A. M., Ihenacho, G., Oyelami, A., Nfah, E. M., Nwobodo-Nzeribe, N. H., Anyaegbuna, B., Matemba, E. (2024). Collaborative Pathways: Enhancing Engineering Education through Industry-Academia Partnerships in Africa. 2024 WORLD ENGINEERING EDUCATION FORUM-GLOBAL ENGINEERING DEANS COUNCIL, WEEF-GEDC. https://doi.org/10.1109/WEEF-GEDC63419.2024.10854942
Borrego, M., and Bernhard, J. (2011) 'The emergence of engineering education research as an internationally connected field of inquiry', Journal of Engineering Education, 100(1), pp. 14-47.
Borrego, M., Foster, M. J., and Froyd, J. E. (2013) 'Systematic literature reviews in engineering education and other developing interdisciplinary fields', Journal of Engineering Education, 103(1), pp. 45-76.
Bourne, J., Harris, D., and Mayadas, F. (2005) 'Online engineering education: Learning anywhere, anytime', Journal of Engineering Education, 94(1), pp. 131-146.
Bucciarelli, L. L. (2003) 'Engineering philosophy', Delft: Delft University Press.
Case, J. M., and Light, G. (2011) 'Emerging methodologies in engineering education research', Journal of Engineering Education, 100(1), pp. 186-210.
Chubin, D. E., May, G. S., and Babco, E. L. (2005) 'Diversifying the engineering workforce', Journal of Engineering Education, 94(1), pp. 73-86.
Conlon, E., and Zandvoort, H. (2011) 'Broadening ethics teaching in engineering: Beyond the individualistic approach', Science and Engineering Ethics, 17(2), pp. 217-232.
Crawley, E. F., Malmqvist, J., Östlund, S., Brodeur, D. R., and Edström, K. (2014) Rethinking engineering education: The CDIO approach. 2nd edn. Cham: Springer.
Dæhli, O. (2016). IMPROVING THE STUDENT'S GENERAL ICT SKILLS IN ENGINEERING EDUCATION. EDULEARN16: 8TH INTERNATIONAL CONFERENCE ON EDUCATION AND NEW LEARNING TECHNOLOGIES.
Davis, D. C., Gentili, K. L., Trevisan, M. S., and Calkins, D. E. (2017) 'Engineering design assessment: A framework of beliefs and behaviors', in American Society for Engineering Education Annual Conference & Exposition. Columbus, OH.
De Matos Alves, A., & Harsh, M. (2018). Project-and experience-based learning for communication skills development: Analysis of complementary studies courses for engineers. 3rd International Conference of the Portuguese Society for Engineering Education, CISPEE 2018. https://doi.org/10.1109/CISPEE.2018.8593464
Downey, G. L., Lucena, J. C., Moskal, B. M., Parkhurst, R., Bigley, T., Hays, C., Jesiek, B. K., Kelly, L., Miller, J., Ruff, S., Lehr, J. L., and Nichols-Belo, A. (2006) 'The globally competent engineer: Working effectively with people who define problems differently', Journal of Engineering Education, 95(2), pp. 107-122.
Dym, C. L., Agogino, A. M., Eris, O., Frey, D. D., and Leifer, L. J. (2005) 'Engineering design thinking, teaching, and learning', Journal of Engineering Education, 94(1), pp. 103-120.
Edström, K., and Kolmos, A. (2014) 'PBL and CDIO: complementary models for engineering education development', European Journal of Engineering Education, 39(5), pp. 539-555.
El Achkar J. H., & Alsaba, M. (2024). DYNAMIC INTEGRATION OF SUSTAINABILITY AND CLIMATE CHANGE IN ENGINEERING CURRICULA VIA CDIO. Proceedings of the International CDIO Conference.
ElZomor, M., Mann, C., Doten-Snitker, K., Parrish, K., Chester, M. (2018). Leveraging Vertically Integrated Courses and Problem-Based Learning to Improve Students' Performance and Skills. JOURNAL OF PROFESSIONAL ISSUES IN ENGINEERING EDUCATION AND PRACTICE. https://doi.org/10.1061/(ASCE)EI.1943-5541.0000379
Feisel, L. D., and Rosa, A. J. (2005) 'The role of the laboratory in undergraduate engineering education', Journal of Engineering Education, 94(1), pp. 121-130.
Felder, R. M., and Brent, R. (2003) 'Designing and teaching courses to satisfy the ABET engineering criteria', Journal of Engineering Education, 92(1), pp. 7-25.
Finelli, C. J., Daly, S. R., and Richardson, K. M. (2018) 'Bridging the research?to?practice gap: Designing an institutional change plan using local evidence', Journal of Engineering Education, 103(2), pp. 331-361.
Froyd, J. E., Wankat, P. C. and Smith, K. A. (2012) 'Five major shifts in 100 years of engineering education', Proceedings of the IEEE, 100(Special Centennial Issue), pp. 1344-1360.
Gambheer, R., & Acharya, U. S. (2024). Work Integrated Learning in Engineering Education: Bridging Theory and Practice. 2024 IEEE International Conference on Teaching, Assessment and Learning for Engineering, TALE 2024 - Proceedings. https://doi.org/10.1109/TALE62452.2024.10834371
Genheimer, S. R. and Shehab, R. L. (2009) 'A survey of industry advisory board operation and effectiveness in engineering education', Journal of Engineering Education, 98(2), pp. 169-180.
Ghattas, M., Abu-Salh, M., Odeh, S., Ghneem, O. (2024). Enhancing Software Engineering Education through an Authentic Web-Based Simulation of Companies Workflows. 2024 IEEE INTERNATIONAL CONFERENCE ON OMNI-LAYER INTELLIGENT SYSTEMS, COINS 2024. https://doi.org/10.1109/COINS61597.2024.10622145
Graham, R. (2018) The global state of the art in engineering education. Boston, MA: Massachusetts Institute of Technology.
Henderson, C., Beach, A., and Finkelstein, N. (2011) 'Facilitating change in undergraduate STEM instructional practices: An analytic review of the literature', Journal of Research in Science Teaching, 48(8), pp. 952-984.
Heywood, J. (2016) The assessment of learning in engineering education: Practice and policy. Hoboken: Wiley.
International Engineering Alliance (IEA) (2013) Graduate attributes and professional competencies. Available at: http://www.ieagreements.org (Accessed: 15 May 2025).
Jesiek, B. K., Newswander, L. K., and Borrego, M. (2011) 'Engineering education research: Discipline, community, or field?', Journal of Engineering Education, 98(1), pp. 39-52.
Johnson, B., Ulseth, R. (2016). Development of Professional Competency through Professional Identity Formation in a PBL Curriculum. 2016 IEEE FRONTIERS IN EDUCATION CONFERENCE (FIE).
Johnson, B., Ulseth, R. (2017). Student Experience for the Development of Professional Competencies in a Project-Based Learning Curriculum. INTERNATIONAL JOURNAL OF ENGINEERING EDUCATION.
Johri, A., and Olds, B. M. (2011) 'Situated engineering learning: Bridging engineering education research and the learning sciences', Journal of Engineering Education, 100(1), pp. 151-185.
Johri, A., and Olds, B. M. (eds.) (2014) Cambridge handbook of engineering education research. New York: Cambridge University Press.
Keckstein, T., Jirasko, J., Hynek, M., Votapek, P. (2017). INNOVATION OF TECHNICAL EDUCATION TO ENHANCE PRACTICAL KNOW-HOW. 9TH INTERNATIONAL CONFERENCE ON EDUCATION AND NEW LEARNING TECHNOLOGIES (EDULEARN17).
King, R. (2012) 'Addressing the supply and quality of engineering graduates for the new century', Sydney: Australian Council of Engineering Deans.
Kolmos, A., and de Graaff, E. (2014) 'Problem-Based and Project-Based Learning in Engineering Education', in Johri, A. and Olds, B.M. (eds.) Cambridge Handbook of Engineering Education Research. New York: Cambridge University Press, pp. 141-160.
Lattuca, L. R., Terenzini, P. T. and Volkwein, J. F. (2006) Engineering change: A study of the impact of EC2000. Baltimore, MD: ABET.
Lattuca, L. R., Terenzini, P. T., Volkwein, J. F. and Peterson, G. D. (2006) 'The changing face of engineering education', The Bridge, 36(2), pp. 5-13.
Lima, R. M., Andersson, P. H., and Saalman, E. (2017) 'Active learning in engineering education: A (re)introduction', European Journal of Engineering Education, 42(1), pp. 1-4.
Lucas, B. (2014) Thinking like an engineer: implications for the education system. London: Royal Academy of Engineering.
Luk, L. Y. Y., & Mitchell, J., & Nweke, M. C., & Leung, T. (2024). Are technical knowledge sacrificed with the integration of transferable skills into the engineering curriculum? - an evaluation of one-week intensive project-based learning in biochemical and biomedical engineering. SEFI 2024 - 52nd Annual Conference of the European Society for Engineering, Proceedings: Educating Responsible Engineers. https://doi.org/10.5281/zenodo.14254870
Male, S. A. (2010) 'Generic engineering competencies: A review and modelling approach', Education Research and Perspectives, 37(1), pp. 25-51.
Male, S. A., Bush, M. B., and Chapman, E. S. (2011) 'Understanding generic engineering competencies', Australasian Journal of Engineering Education, 17(3), pp. 147-156.
Marbouti, F., Diefes-Dux, H. A., and Madhavan, K. (2016) 'Models for early prediction of at-risk students in a course using standards-based grading', Computers & Education, 103, pp. 1-15.
Martin, R., Maytham, B., Case, J. and Fraser, D. (2005) 'Engineering graduates' perceptions of how well they were prepared for work in industry', European Journal of Engineering Education, 30(2), pp. 167-180.
McCormack, J., Beyerlein, S., Kranov, A.A., Davis, D., Trevisan, M., Pedrow, P., Davis, H., Lebeau, J., Gerhart, K., Mavrommatis, A. and Rathbun, G. (2012) 'Scenario development to support PBL evaluation and research', in American Society for Engineering Education Annual Conference & Exposition. San Antonio, TX.
Mesuwini, J., Thaba-Nkadimene, K. L., Mzindle, D., Mokoena, S. (2023). Work-integrated learning experiences of South African technical and vocational education and training lecturers. INTERNATIONAL JOURNAL OF WORK-INTEGRATED LEARNING.
Mitchell, J. E., Nyamapfene, A., Roach, K., and Tilley, E. (2021) 'Faculty wide curriculum reform: the integrated engineering programme', European Journal of Engineering Education, 46(1), pp. 48-66.
Nieusma, D., and Riley, D. (2010) 'Designs on development: Engineering, globalization, and social justice', Engineering Studies, 2(1), pp. 29-59.
Passow, H. J. (2012) 'Which ABET competencies do engineering graduates find most important in their work?', Journal of Engineering Education, 101(1), pp. 95-118.
Passow, H. J., and Passow, C. H. (2017) 'What competencies should undergraduate engineering programs emphasize? A systematic review', Journal of Engineering Education, 106(3), pp. 475-526.
Patil, A., and Codner, G. (2007) 'Accreditation of engineering education: Review, observations and proposal for global accreditation', European Journal of Engineering Education, 32(6), pp. 639-651.
Potkonjak, V., Gardner, M., Callaghan, V., Mattila, P., Guetl, C., Petrovi?, V. M., and Jovanovi?, K. (2016) 'Virtual laboratories for education in science, technology, and engineering: A review', Computers & Education, 95, pp. 309-327.
Prados, J. W., Peterson, G. D., and Lattuca, L. R. (2005) 'Quality assurance of engineering education through accreditation: The impact of Engineering Criteria 2000 and its global influence', Journal of Engineering Education, 94(1), pp. 165-184.
Prince, M. (2004) 'Does active learning work? A review of the research', Journal of Engineering Education, 93(3), pp. 223-231.
Prince, M. J., and Felder, R. M. (2006) 'Inductive teaching and learning methods: Definitions, comparisons, and research bases', Journal of Engineering Education, 95(2), pp. 123-138.
Ramírez-Cadena, M. D., Méndez-Garduño, J. I., Cayetano-Jiménez, I. U., Membrillo-Hernández, J. (2024). Multi-Challenge-Based Learning in Engineering: A new model in Experiential. 2024 IEEE GLOBAL ENGINEERING EDUCATION CONFERENCE, EDUCON 2024. https://doi.org/10.1109/EDUCON60312.2024.10578578
Raut, S., Bhura, S, Khushalani, J., Kim, H., Ramani, N., Bajaj, R., Jeswani, D. (2024). Revolutionizing construction engineering education : A virtual reality approach for enhanced training and optimization. JOURNAL OF STATISTICS AND MANAGEMENT SYSTEMS. https://doi.org/10.47974/JSMS-1264
Rehman, S. U. (2023). Trends and Challenges of Project-Based Learning in Computer Science and Engineering Education. PROCEEDINGS OF THE 15TH INTERNATIONAL CONFERENCE ON EDUCATION TECHNOLOGY AND COMPUTERS, ICETC 2023. https://doi.org/10.1145/3629296.3629360
Salinas-Navarro, D. E., Garay-Rondero, C. L., Arana-Solares, I. A. (2023). Digitally Enabled Experiential Learning Spaces for Engineering Education 4.0. EDUCATION SCIENCES. https://doi.org/10.3390/educsci13010063
Segalàs, J., Ferrer-Balas, D., and Mulder, K. F. (2009) 'What do engineering students learn in sustainability courses? The effect of the pedagogical approach', Journal of Cleaner Production, 18(3), pp. 275-284.
Senay, S. (2015). On the Impacts of Project Based Learning for Workplace Preparedness of Engineering Graduates. 2015 10th System of Systems Engineering Conference (SoSE).
Sheppard, S. D., Macatangay, K., Colby, A., and Sullivan, W. M. (2009) Educating engineers: designing for the future of the field. San Francisco: Jossey-Bass.
Shuman, L. J., Besterfield?Sacre, M., and McGourty, J. (2005) 'The ABET "professional skills" — Can they be taught? Can they be assessed?', Journal of Engineering Education, 94(1), pp. 41-55.
Simpson, Z., & Van Rensburg N. J., & Benecke, D. R. (2018). Development of 'Soft Skills' through extra-curricular project work: The case of the Jozi Digital Ambassadors Project in Johannesburg, South Africa. IEEE Global Engineering Education Conference, EDUCON. https://doi.org/10.1109/EDUCON.2018.8363220
Smith, K. A., Sheppard, S. D., Johnson, D. W. and Johnson, R. T. (2005) 'Pedagogies of engagement: Classroom?based practices', Journal of Engineering Education, 94(1), pp. 87-101.
Soska, A., Schroll-Decker, I., Mottok, J. (2014). Implementation of Practical Exercises in Software Engineering Education to Improve the Acquirement of Functional and Non-Functional Competences A field report about project-based learning in software engineering. 2014 INTERNATIONAL CONFERENCE ON INTERACTIVE COLLABORATIVE LEARNING (ICL).
Stevens, R., Amos, D., Jocuns, A. and Garrison, L. (2008) 'Engineering as lifestyle and a meritocracy of difficulty: Two pervasive beliefs among engineering students and their possible effects', in American Society for Engineering Education Annual Conference & Exposition. Pittsburgh, PA.
Tarpey, R. J. (2022). Project management education through simulation: Achieving reliability, relevance, and reality in a messy environment. DECISION SCIENCES-JOURNAL OF INNOVATIVE EDUCATION. https://doi.org/10.1111/dsji.12270
Tijo-López S. J. & Mejía-Aguilar, G. (2024). Active Learning in Construction Management Capstone Projects: Bridging Theory and Practice. International Symposium on Project Approaches in Engineering Education. https://doi.org/10.5281/zenodo.14062512
Turns, J., Sattler, B., Eliot, M., Kilgore, D., and Mobrand, K. (2012) 'Preparedness portfolios and portfolio studios', International Journal of ePortfolio, 2(1), pp. 1-13.
Turns, J., Sattler, B., Yasuhara, K., Borgford-Parnell, J. and Atman, C.J. (2012) 'Integrating reflection into engineering education', Proceedings of the ASEE Annual Conference and Exposition. San Antonio, TX.
Vanoye-Garcia, A. Y., Menchaca-Torre, H. L. (2024). Developing Sustainability Competencies in Engineering Students through Problem-Based Learning in Fluid Mechanics. 2024 WORLD ENGINEERING EDUCATION FORUM-GLOBAL ENGINEERING DEANS COUNCIL, WEEF-GEDC. https://doi.org/10.1109/WEEF-GEDC63419.2024.10854921
Vinod, G., & Guile, D. (2024). PRELIMINARY INSIGHTS INTO AI AND ENGINEERING EDUCATION IN THE US AND UK: AN EXPLORATORY STUDY. SEFI 2024 - 52nd Annual Conference of the European Society for Engineering, Proceedings: Educating Responsible Engineers. https://doi.org/10.5281/zenodo.14254774
Voogt, J., Erstad, O., Dede, C., and Mishra, P. (2013) 'Challenges to learning and schooling in the digital networked world of the 21st century', Journal of Computer Assisted Learning, 29(5), pp. 403-413.
Walther, J., and Radcliffe, D. F. (2007) 'The competence dilemma in engineering education: Moving beyond simple graduate attribute mapping', Australasian Journal of Engineering Education, 13(1), pp. 41-51.
Williams, J. M. (2002) 'The engineering portfolio: Communication, reflection, and student learning outcomes assessment', International Journal of Engineering Education, 18(2), pp. 199-207.
Williams, J. M. (2013) 'The engineering portfolio: Communication, reflection, and student learning outcomes assessment', International Journal of Engineering Education, 29(1), pp. 96-106.
Wenlong, M., & Nasri, N. M. (2025). Practice-Focused Teaching Strategies in Engineering Education: A Systematic Review of Competency Development and Implementation Contexts. International Journal of Academic Research in Progressive Education and Development, 14(2), 1574–1600.
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