정보교육학회논문지 (Journal of The Korean Association of Information Education)

  • 제26권5호
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  • Pages.361-374
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  • 2022
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  • 1229-3245(pISSN)
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  • 2733-8428(eISSN)
한국정보교육학회 (Korea Association of Information Education)
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시각장애 학생을 위한 블록 기반 프로그래밍 수업의 가능성 분석

A Study on the Possibility of Block-based Programming Courses for Visual Impairments

  • 투고 : 2022.08.08
  • 심사 : 2022.10.11
  • 발행 : 2022.10.31
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초록

2015 개정 교육과정에서 초등학교 실과, 중학교 정보의 필수화에 따라 국립특수교육원에서는 장애 학생을 위한 소프트웨어 교과서를 개발하여 보급하였다. 교육 기회 형평성의 관점에서 제공된 교과서이지만, 시각장애 학생을 대상으로 한 프로그래밍 교육에 관한 내용은 미비하였다. 이에 본 연구는 시각장애 학생을 대상으로 프로그래밍 교육의 효과를 확인하고, 향후 프로그래밍 교육의 방향성을 제공하기 위한 목적으로 진행되었다. 목적 달성을 위해 초등학교 6학년 시각장애 학생을 대상으로 프로그래밍 수업을 진행하였다. 로봇과 연동한 블록 기반 프로그래밍 도구인 Blocks4All을 활용한 연구 결과, 학생의 수업 참여도는 적극적이었으며, 프로그래밍 유용성, 흥미도, 자신감 등이 높게 나타났다. 본 연구는 시각장애 학생을 대상으로 한 프로그래밍 교육의 가능성을 확인했다는 데 의의가 있다.

The National Institute of Special Education developed and distributed software textbooks for disabled students according to the necessity of practical course in elementary school and information in middle school in the 2015 revised curriculum. It is a textbook provided from the perspective of education opportunity equity but the content of programming education for visually impaired students was insufficient. Therefore this study was conducted for the purpose of confirming the effectiveness of programming education for visual impaired students and providing the direction of future programming education. In order to achieve the purpose, programming classes were conducted for blind students in the 6th grade of elementary school. As a result of a study using "Blocks4All", a block-based programming tool with robots, students participated in classes actively and efficacy, intrest, and usefulness of programming are high. This study is meaningful in that it confirmed the possibility of programming education for visually impaired students.

키워드

참고문헌

  1. Choi, Y., Kim, Y., & Cho, S. (2016). The Changing of Beginners Perception of the Programming after using Educational Programming Languages. The Korean Association of Computer Education, 20(2), 7-10. 
  2. Dorsey, R., Chung, H. P., & Howard, A. (2014). Developing the Capabilities of Blind and Visually Impaired Youth to Build and Program Robots. In 28th Annual International Technology and Persons with Disabilities Conference. San Diego: California State University, Northridge. 
  3. Entry. Retrieved from https://palyentry.org/ (2022.09.30) 
  4. Google, Blockly. Retrieved from https://developers.google.com/blockly (2022.09.30) 
  5. Hallahan, D. P., & Kauffman, J. M. (2003). Exceptional learners: Introduction to special education, 9th Ed. Boston: Allyn and Bacon. 
  6. Hansone(BrailleSense). Retrieved from https://himsintl.com/kr/blindness/view.php?idx=15 (2022.09.30) 
  7. Jeon, S., & Lee, Y. (2015). The Influence of Learning App Inventor Programming of LT Collaborative Learning based on Children's Motivation. The Korean Association of Computer Education. 
  8. Jeong, D., Kim, H., & Jung, D. (2001). A Study on the Prevalence of Children with Special Education Needs. Ansan: National Institute of Special Education. 
  9. Kim, J., Woo, H., Yang, H., Kim, M., Kim, S., Yi, S., Kim, Y., Kim, Y.A., Gwak, J., Choe, H. Jeong, I., Lee, Y., & Lee, W.G. (2020). Proposing the informatics standard curriculum scheduled to be revised in 2022. The Korean Association of Computer Education, 23(1), 1-28.  https://doi.org/10.32431/kace.2020.23.1.001
  10. Kim, Y., Kim, J, & Lee, J. (2012). A Case Study on Reflection Using Worksheets for Elementary School Students in Programming Learning. Korean Association Of Information Education. 
  11. Kwoom, S. (2018). A Study on Organizing Software Education of Special Education Curriculum for Students with Disability. Journal of Educational Innovation Research, 28(4), 441-460.  https://doi.org/10.21024/PNUEDI.28.4.201812.441
  12. Koushik, V., & Lewis, C. (2016). An Accessible Blocks Language: Work in Progress. Computers and Accessibility, 317-318. 
  13. Lee, E. & Lee, Y. (2007). The Effect of a Robot Programming Learning on Problem Solving Ability. The Korean Association of Computer Education, 10(6), 19-28. 
  14. Lee, H. J., Lee, W. J., & Jung, H. (2020). A Study on Effective Software Education Model by Disability Type for Youth. Korea Society of Computer Information, 25(10), 261-268. 
  15. Lee, J. & Ko, E. (2018). The Effect of Software Education on Middle School Students' Computational Thinking. The Korea Contents Association, 18(12), 238-250. 
  16. Lee, S., & Park, E. (2020). Coaching Exceptional Children in Inclusive Settings, Seoul:Hakjisa. 
  17. Lee, Y. & Lee, E. (2009). An Algorithm Learning Program with Robot. The Korean Association of Computer Education, 12(1), pp.33-44. 
  18. Lewis, C. (2014). Work in Progress Recport: Nonvisual Visual Programming
  19. Ludi, S. (2015). Position paper: Towards making block-based programming accessible for blind users Proceedings - 2015 IEEE Blocks and Beyond Workshop, Blocks and Beyond 2015, 67-69. 
  20. Ludi, S., Ellis, L., & Jordan, S. (2014). An accessible robotics programming environment for visually impaired users. Computers & Accessibility, 237-238. 
  21. Ludi, S., & Reichlmayr, T. (2011). The Use of Robotics to Promote Computing to Pre-College Students with Visual Impairments. ACM Transactions on Computing Education, 11(3). 
  22. Malonney, J., Resnick, M., Rusk, N., Silverman, B., & Eastmond, E. (2010). The Scratch Programming Language and Environment. ACM Transactions on Computing Education, 10(4). 
  23. Matsuzawa, Y., Tanaka, Y., & Sakai, S. (2016). Measuring an impact of block-based language in introductory programming (Vol. 493). Springer New York LLC. 
  24. Milne, L. R., & Ladner, R. E. (2018). Blocks4All : Overcoming Accessbility Barriers to Blocks Programming for Children with Visual Impairments. Human Factors in Computing Systems. 1-10. 
  25. Milne, L. R., & Ladner, R. E. (2019). Blocks4All (Summer-2019 branch). Retrieved from https://github.com/milnel2/blocks4alliOS (2022.09.30) 
  26. Ministry of Education(2021). 2022 Revised Curriculum Highlights [Proposal]. Retrieved from https://www.moe.go.kr/boardCnts/viewRenew.do?boardID=294&board-Seq=89671&lev=0&searchType=null&statusYN=W&page=1&s=moe&m=020402&opType=N(2022.09.30) 
  27. Ministry of Education(2015). Practical Arts(Technical Education & Home Economics) Information Curriculum, Ministry of Education Notice No. 2015-74 Supplementary, 10. Ministry of Education. 
  28. Ministry of Education(2015). Primary Education, Ministry of Education Notice No. 2015-74 Supplementary, 1. Ministry of Education. 
  29. Ministry of Education(2015). Special Education, Ministry of Education Notice No. 2015-81 Supplementary, 3. Ministry of Education. 
  30. Ministry of Education(2020). Special Education Statistics for 2020. Retrieved from http://www.nise.go.kr/ebook/site/20200703_154254 (2022.09.30) 
  31. Ministry of Education & KERIS. (2018), 2018 White Paper on ICT in Eduation Korea. 
  32. Ministry of Education & KERIS. (2019), 2019 White Paper on ICT in Eduation Korea. 
  33. Ministry of Education & KERIS.(2020), 2020 White Paper on ICT in Eduation Korea. 
  34. OECD. (2018a). The future of education and skills Education 2030. Paris: OECD Publishing. 
  35. Perez-Marin, D., Hijon-Neira, R., Bacelo, A., & Pizarro, C. (2020). Can computational thinking be improved by using a methodology based on metaphors and scratch to teach computer programming to children?, Computers in Human Behavior, 105.