THE DEVELOPMENT OF OUTDOOR ELECTRICAL INSTALLATION SKILLS THROUGH MIAP LEARNING MODEL COMBINED WITH SIMULATION-BASED LEARNING FOR VOCATIONAL CERTIFICATE STUDENTS IN LOPBURI TECHNICAL COLLEGE
DOI:
https://doi.org/10.55003/IJIET.7207Keywords:
MIAP learning model, Simulation-based learning, Vocational certificate, Development of outdoor electrical installation skillsAbstract
This study aimed to develop a learning management model that integrates the MIAP model with simulation-based learning for vocational certificate students in Lopburi Technical College. The sample included 19 third-year Electrical Power students from Lopburi Technical College enrolled in the Outdoor Electrical Installation subject during semester 2/2024, who were selected by cluster random sampling. The research instruments follow: 1) the learning model integrating the MIAP model with simulation-based learning, 2) an instructional package for outdoor electrical installation, which consists of a teacher’s manual, instructional plans, presentation media, and activity sheets, 3) the learning achievement test, 4) an outdoor electrical installation skill assessment form, and 5) the students' satisfaction evaluation form. The statistical methods used in this study included percentage, mean, standard deviation, and t-test (dependent). The study found that: 1) The developed instructional model, which integrates the MIAP learning model with Simulation-Based Learning (SBL), was of high quality ( = 4.34, SD = 0.37), 2) students showed significantly higher learning achievement after learning through the integrated learning model (p < .05), 3) students who learned through the developed instructional model showed high outdoor electrical installation skills (average score was 3.15 or 78.82%) and 4) students showed a highest level of satisfaction with the developed instructional model (
= 4.51, SD. = 0.30), thus the integrated model helps vocational students develop practical skills and a deeper understanding through active learning, real-life practice, and continuous reflection.
References
Alharbi, A., Nurfianti, A., Mullen, R. F., McClure, J. D., & Miller, W. H. (2024). The effectiveness of simulation-based learning (SBL) on students’ knowledge and skills in nursing programs: A systematic review. BMC Medical Education, 24(1099), 1-21.
Chubkhuntod, P., Elter, P., Kaewkulthon, N., & Pochana, R. (2020). Effects of Simulation Based Learning Model on Knowledge, Self-Efficacy and Abilities of Applying Nursing Process Skills during Intrapartum Care of Nursing Students. Journal of Health Science, 29(6), 1062-1072. (in Thai)
Chudjuajeen, S., Wutisukpaisan, S., & Narysangkharn, S. (2021). The Use of High-Fidelity Simulation Based Learning in Nursing Education. Journal of Boromarajonani College of Nursing, Surin, 11(2), 149–163. (in Thai)
Hansena, S., & Jumrusprasert, P. (2024). Learning Management based on Inquiry Method and Simulations to Improve Critical Thinking Skill and Problem-Solving Skills of Mathayomsuksa 1 Students. Journal of Graduate School Sakon Nakhon Rajabhat University, 21(93), 26-36. (in Thai)
Hutamarn, S. (2022). The Effect of using MIAP Learning Model with Demonstration Set and Simulation to Promote Learning on Electric Drive and Servo System Subject. Journal of Education Khon Kaen University, 45(1), 32-43. (in Thai)
Karnna, S., & Prathoomthong, R. (2020). Development of MIAP Format Instructional Package for Proactive Learning Instructional with Computer Multimedia Lesson to Enhance Usability Electrical Measuring Instruments Skills. Institute of Vocational Education Southern Region 1 Journal, 5(1), 12-21. (in Thai)
Khumsuk, W., & Nillapun, M. (2021). Simulation-Based Learning. Journal of Council of Community Public Health, 3(1), 1-11. (in Thai)
Office of the National Economic and Social Development Council. (2023). The Thirteenth National Economic and Social Development Plan (2023–2027). Office of the National Economic and Social Development Council. https://www.nesdc.go.th/wordpress/wp-content/uploads/2025/02/article_file_20230615134223.pdf. (in Thai)
Mingolo, N. (2025). Development of Problem-Based Learning Activities Integrated with Real-Life Mathematics Education Concepts on Ordinary Differential Equations to Enhance Problem-Solving Skills for Students at Roi Et Rajabhat University. Ratchaphruek Journal, 23(1), 82-98. (in Thai)
Office of the National Economic and Social Development Council. (2023). The Thirteenth National Economic and Social Development Plan (2023–2027). Office of the National Economic and Social Development Council. https://www.nesdc.go.th/wordpress/wp-content/uploads/2025/02/article_file_20230615134223.pdf. (in Thai)
Pengsook, A. (2022). The Development of Problem-Solving Skill for Professional Teaching Students through the Simulation Method. Valaya Alongkorn Review (Humanities and Social Science), 12(3), 103-114. (in Thai)
Phetjan, P., Buaklay, N., Sumim, S., & Oungthong, M. (2023). Development of an Instructional Package on Construction Materials by Using Board Games and the MIAP Learning Process to Enhance Students' Achievements. Journal of Industrial Education, 22(3), 1–14. (in Thai)
Phoyen, K. (2021). Active Learning: Learning satisfy Education in 21stcentury. Journal of Education Silpakorn University, 19(1), 11-28. (in Thai)
Poopamonkaipob, K. (2019). MIAP Instruction for Learning. Journal for Research and Innovation, Institute of Vocational Education Bangkok, 2(2), 14–21. (in Thai)
Poopamonkaipob, K., Tuntinongwanich, S., & Tungkunanan, P. (2020). Achievement with MIAP Teaching Method Via Web-based Instruction on Condition Design for Certificate level. Journal of Industrial Education, 19(2), 111–118. (in Thai)
Prathoomthong, R., & Karnna, S. (2022). Development of Instructional Package on Basic Programming in the Subject of Basic Programmable Controllers by Using the MIAP Format with Game-Based Teaching for the 2nd Year of Vocational Education Student of the Mechatronics Department. Journal of Education, Prince of Songkla University, Pattani Campus, 33(2), 141-156. (in Thai)
Raksapakdee, S., & Chaipichit, D. (2022). The Development of Year-2 Vocational Certificate Students’ Operational Skills in the Subject of Exterior Electrical System Installation Through Direct Instruction Model Along with the Think-Pair-Share Technique. Journal of Modern Learning Development, 7(7), 46-58.
Seetao, C., Sukmak, P., Lohakan, M., & Klinbumrung, K. (2025). The Outcome of STEM Education-Based Learning Using an Engineering Design Process with Training Packages for Industrial Internet of Things (IIoT) in Vocational Thailand. International Journal of Learning, Teaching and Educational Research, 24(4), 277- 297.
Sriudomkij, T., Tanamai, S., & Soopeerak, S. (2020). The development of Computer Game- Based Instructional Model using Simulation and Problem Solving Process to Enhance Critical Thinking of Grade 6 Students. Journal of Social Science and Buddhistic Anthropology, 5(9), 381-396. (in Thai)
Sukmak, P., & Klinbumrung, K. (2025). The Development of research-based learning model to promote the critical thinking skills in measurement and evaluation education. Kasetsart Journal of Social Sciences, 46(1), 1-10.
Yuangngoen, W., Saengrith, W., Sitthimongkolchai, N., Makeshine, S., Petsangsri, S., & Tuntiwongwanich, S. (2019). Blended Learning Management of WordPress Website Development Skill for Communication Design Undergraduates Using the ADDIE Model. International Journal of Industrial Education and Technology, 1(1), 50-58.
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