Acknowledgement
본 과제(결과물)는 교육부의 재원으로 지원을 받아 수행된 산학협력 선도대학(LINC) 육성사업의 연구결과입니다.
References
- Aho, A. V. (2012). Computation and computational thinking. The Computer Journal, 55(7), 832-835. https://doi.org/10.1093/comjnl/bxs074
- Andersen, L., & Ward, T. J. (2014). Expectancy-value models for the STEM persistence plans of ninth-grade, high-ability students: A comparison between Black, Hispanic, and White students. Science Education, 98(2), 216-242. https://doi.org/10.1002/sce.21092
- Blikstein, P., & Worsley, M. (2016). Children are not hackers. Building a culture of powerful ideas, deep learning and equity in the maker movement. In K. Peppler, E. Halvorsen, & Y. Kafai (Eds.) Makeology: Makerspaces as learning environments (pp. 64-80). New York, NY: Routledge.
- Cho. S., Jang. Y., Jung. T. & Lim. H. (2001). A study on the development of simple and creative problem solving Test (1). Seoul: Korea Educational Development Institute.
- Choi, S. Y., & Kim, S. M. (2016). Effects of physical computing education using app inventor and Arduino on industrial high school students' Creative and integrative thinking. The Journal of Korean Association of Computer Education, 19(6), 45-54. https://doi.org/10.32431/KACE.2016.19.6.005
- Computer Science Teachers Association and the International Society for Technology in Education (2011). Computational Thinking in K-12 Education, teacher resources.
- Dougherty, D. (2012). The maker movement. Innovations: Technology, governance, globalization, 7(3), 11-14. https://doi.org/10.1162/INOV_a_00135
- Halverson, E. R., & Sheridan, K. (2014). The maker movement in education. Harvard educational review, 84(4), 495-504. https://doi.org/10.17763/haer.84.4.34j1g68140382063
- Hsu, Y. C., Baldwin, S., & Ching, Y. H. (2017). Learning through making and maker education. TechTrends, 61(6), 589-594. https://doi.org/10.1007/s11528-017-0172-6
- Jo, Y. J. (2019). Development of maker education program with creative problem solving(CPS). Journal of Fisheries and Marine Sciences Education, 31(3), 856-876. https://doi.org/10.13000/JFMSE.2019.6.31.3.856
- Jung H. N., & Jhun, Y. S. (2020). Physical Computing Classes using a Flipped Learning Strategy. Journal of Gifted/Talented Education, 30(1), 1-23. https://doi.org/10.9722/JGTE.2020.30.1.1
- Kang, M. S. (2009). Development of learners' perceived interaction model and scale between learner and instructor in e-learning environments. Doctoral Dissertation, Korea University.
- Kim, M. Y., & Kim, S. W. (2018). Korean secondary students' computational thinking based on problem solving. Journal of Learner-Centered Curriculum and Instruction, 18(16), 807-830. https://doi.org/10.22251/jlcci.2018.18.16.807
- Kim, M. Y., & Kim, S. W. (2020). The effect of scientific problem-solving education using physical computing on computational thinking. Journal of Learner-Centered Curriculum and Instruction, 20(8), 387-410. https://doi.org/10.22251/jlcci.2020.20.8.387
- Kim, H. J., Seo, J. H., & Kim, Y. S. (2016). The effect of scratch programming education using arduino on middle school students' creative problem solving ability. Journal of Learner-Centered Curriculum and Instruction. 16(12), 707-724.
- Lee, S. S., & Lee, Y. N. (2007). Development of blended instructional model for creative problem solving. Journal of Educational Technology, 23(2), 135-159. https://doi.org/10.17232/KSET.23.2.135
- Lee, J. M., & Ko, E, J. (2018). The effect of software education on middle school students computational thinking. Journal of the Korea Contents Association, 18(12), 238-250. https://doi.org/10.5392/JKCA.2018.18.12.238
- Lee, S. C., Kim T. Y., Kim, J. S., Kang, S. J., & Yoon, J. Y. (2019). The Effect of a Design Thinking-based Maker Education Program on the Creative Problem Solving Ability of Elementary School Students. Journal of The Korean Association of Information Education, 23(1), 73-84. https://doi.org/10.14352/jkaie.2019.23.1.73
- Martin, L. (2015). The promise of the maker movement for education. Journal of Pre-College Engineering Education Research (J-PEER), 5(1), 30-39.
- Mumford, M. D., Supinski, E. P., Threlfall, K. V., & Baughman, W. A. (1996). Process based measures of creative problem solving skills: III. Category selection. Creativity Research Journal, 9(4), 395-406. https://doi.org/10.1207/s15326934crj0904_11
- Osburn, H. K., & Mumford, M. D. (2006). Creativity and planning: Training interventions to develop creative problem-solving skills. Creativity Research Journal, 18(2), 173-190. https://doi.org/10.1207/s15326934crj1802_4
- Papert, S. (1980). Mindstorms: Children, computers and powerful ideas. New York, NY: Basic Books.
- Park, J. H. (2015). Effects of storytelling based software education on computational thinking. Journal of the Korean Association of information Education, 19(1), 57-68. https://doi.org/10.14352/jkaie.2015.19.1.57
- Peppler, K., & Bender, S. (2013). Maker movement spreads innovation one project at a time. Phi Delta Kappan, 95(3), 22-27. https://doi.org/10.1177/003172171309500306
- Ringberg, T., & Reihlen, M. (2008). Towards a socio-cognitive approach to knowledge transfer. Journal of Management Studies, 45(5), 912-935. https://doi.org/10.1111/j.1467-6486.2007.00757.x
- Seo, M. G. (2012). Critical thinking and creative problem solving. Korean Journal of General Education, 6(3), 221-247.
- Shim, S. Y., Kim, J. O., & Kim, J. S. (2016). Development of steam learning program using ar-duino to improve technological problem-solving ability for middle school students. The Korean Journal of Technology Education, 16(1), 77-100.
- Taylor, B. (2016). Evaluating the benefit of the maker movement in K-12 STEM education. Electronic International Journal of Education, Arts, and Science (EIJEAS), 2, 1-22.
- Treffinger, D. J., Isaksen, S. G., & Dorval, B. K. (2005). Creative problem solving: An introduction (4th ed.). Waco, TX: Prufrock Press.
- Wiebe, E. N., Williams, L., Yang, K., & Miller, C. (2003). Computer science attitude survey. Dept. of Computer Science, NC State University.
- Wing, J. M. (2006). Computational thinking. Communications of the ACM, 49(3), 33-35. https://doi.org/10.1145/1118178.1118215
- Yadav, A., Mayfield, C., Zhou, N., Hambrusch, S., & Korb, T. (2014). Computational thinking in elementary and secondary teacher education. ACM Transactions on Computing Education, 14(1), 1-16.
- Yin, Y., Hadad, R., Tang, X., & Lin, Q. (2019). Improving and Assessing Computational Thinking in Maker Activities: the Integration with Physics and Engineering Learning. Journal of Science Education and Technology, 29(2), 189-214 https://doi.org/10.1007/s10956-019-09794-8
- Yoon, J. K., & Kim, Y. S. (2018). Influence of programming education utilizing arduino on creative problem solving ability of high school students. The SNU Journal of Education Research, 27(3), 53-73.
- Yoon, J. H., Kwon, J. H., & Kang, S. J. (2019). Verification of effectiveness of design thinking-based maker education program for middle school students. Journal of Learner-Centered Curriculum and Instruction, 19(10), 561-584