Research on the Application of Blended Teaching Method in Microcontroller Principles and Applications Course
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Keywords

Blended teaching strategies
Microcontroller principles and applications
MOOC
SPOC
Project-based learning

DOI

10.26689/erd.v6i8.8040

Submitted : 2024-07-24
Accepted : 2024-08-08
Published : 2024-08-23

Abstract

In the digital era, the teaching mode of university courses has ushered in a reform opportunity. Ways to address the current teaching problems of microcomputer principles and applications, leverage digital technology, design hybrid teaching activities, solve the problems of scattered learning resources, diverse student learning abilities, and disconnect between theory and practice in teaching, enhance student learning motivation, has become an important problem faced by teachers. This article takes the principle and application of microcontrollers as an example to explain the application value of blended learning method. Starting from the learning background, learning foundation, course content and learning enthusiasm, it analyzes the problems in course teaching and focuses on MOOC+SPOC, case teaching and project-driven teaching methods, as well as a diversified evaluation system, introduces digital platforms and teaching resources and explores the application strategies of blended teaching method in course teaching.

References

Tong Y, Guan Q, Deng J, et al., 2023, Integrated Teaching Reform of Theory and Practice in Microcontroller Curriculum Under the Background of New Engineering. Journal of Hunan University of Technology (Natural Science Edition), 36(4): 77–81.

Shan C, 2023, Blended Teaching Practice of Microcontroller Principles and Applications Course. Integrated Circuit Applications, 40(6): 136–137.

Li X, Li J, Hu L, et al., 2023, Research on the Reform of Teaching Mode for the Course of Microcontroller Principles and Applications Under the Background of New Engineering. Technology Wind, 2023(12): 96–98.

Cao X, Liu W, Wang X, et al., 2023, Exploration of Blended Deep Learning Mode Under the Background of Engineering Education Reform. Higher Education Journal, 9(8): 92–96 + 101.

Zhao Z, 2023, Exploration of Teaching Reform in Microcontroller Course Based on Project Driven Approach. Industry and Technology Forum, 22(4): 120–122.

Xing Y, Wu L, Teng H, et al., 2022, Research on Blended Online and Offline Teaching of “Principles and Applications of Microcontrollers” Based on “Golden Course Construction.” Technology Information, 20(9): 155–157.

Sun H, Qian X, 2022, Project Driven Blended Teaching Practice for Microcontroller Courses. Electronic Technology, 51(3): 112–113.

Guo X, 2022, The Application and Analysis of SPOC Hybrid Teaching Based on Moodle Platform: Taking the Course of Microcontroller Application Technology as an Example. Electronic Testing, 36(2): 137–139.

Wen B, Li P, Yang C, et al., 2021, The Application of Blended Learning Mode in Microcontroller Courses. Electronic World, 2021(24): 23–24.

Lin P, Li D, Jiang S, et al., 2019, Research on the Teaching Reform of Excellent Microcontroller Course in Applied Undergraduate Universities. Modern Vocational Education, 2019(7): 100–101.

Pang B, Feng A, Li S, 2021, A Brief Discussion on the Application of the “Golden Course” Teaching Mode in the Teaching of Microcontroller Principles. Technology and Innovation, 2021(20): 94–95.

Chen H, Sheng W, Zheng K, 2021, Teaching Reform and Practice of Excellent Microcontroller Course Based on a Hybrid Online and Offline Mode. Science and Education Wenhui (First Ten Days), 2021(25): 85–87.

Cao S, Zheng J, Geng D, et al., 2021, Exploration of Blended Teaching with Equal Emphasis on Learning and Teaching in the Microcontroller Course. Technology Wind, 2021(13): 62–63.

Sun W, Cheng L, Liu M, 2021, Integration of Microcontroller Theory and Experimental Courses Based on Blended Learning. Integrated Circuit Applications, 38(5): 86–87.

Zhao W, 2021, The Construction and Reflection of Online and Offline Hybrid Gold Course: Taking “Microcontroller Application Technology” as an Example. Light Industry Technology, 37(5): 195–196.