한국수학교육학회지시리즈D:수학교육연구 (Research in Mathematical Education)

  • 제25권4호
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  • Pages.267-284
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  • 2022
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  • 1226-6191(pISSN)
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  • 2287-9943(eISSN)
한국수학교육학회 (Korean Society of Mathematical Education)
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Analysis of the Construction and Effectiveness of Precision-Targeted Classroom Based on Analysis of Students' Real Learning Situation

  • Chao, Xiong (School of Mathematics and Statistics, Jiangxi Normal University) ;
  • Xiuyun, Yu (School of Mathematics and Statistics, Jiangxi Normal University) ;
  • Jiaxin, Chen (School of Mathematics and Statistics, Jiangxi Normal University)
  • 투고 : 2022.08.11
  • 심사 : 2022.12.29
  • 발행 : 2022.12.31
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초록

In response to the current educational situation of students' heavy workload, the author constructs the precision-targeted classroom based on Precision Teaching (PT), Network Pharmacology, and Treatment Based on Syndrome Differentiation. The precision-targeted classroom can solve the current problems of PT and the phenomenon of the heavy academic burden on students, achieve the reduction of the burden and increase the efficiency of education. The precision-targeted classroom includes five key points: targeted goals, childlike thinking, precise intervention, intelligent homework, and stereoscopic evaluation, and the implementation process of the precision-targeted classroom is built from three aspects: before, during and after class. In addition, the author applied it to the actual mathematics classroom to test its teaching effect, and the experimental results showed that: the precision-targeted classroom significantly improved students' academic performance and thinking level; considerably improved students' classroom learning status, and facilitated teaching personalization and realized homework quantity control and quality improvement.

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과제정보

This research was supported by a grant from Jiangxi Provincial Education Department Postgraduate Innovation Fund Project (Number: YC2021-S314). Achievement unit: Jiangxi Normal University.

참고문헌

  1. An, G. Q. (2013). On the integration of learning situation analysis and teaching process. Contemporary Educational Science, 28(22), 40-42.
  2. Binder, C. (1988). Precision teaching: Measuring and attaining exemplary academic achievement. Youth Policy,10(7), 12-15.
  3. Chen, L. J. (2021). The deviation and reversion of human subject identity in precision teaching in the age of technology. Contemporary Educational Science, 36(10), 11-19.
  4. Chen, L. S. (2016). Transformation of classroom teaching based on the perspective of learning situation analysis. Educational Development Research, 36(6), 69-76. doi:10.14121/j.cnki.1008-3855.2016.06.012.
  5. Cuoco, A., Goldenberg, E., Mark, J., & Hirsch, C. (2010). Organizing a curriculum around mathematical habits of mind. The Mathematics Teacher, 103(9), 682-688 https://doi.org/10.5951/MT.103.9.0682
  6. Evans, A.L., Bulla, A.J., & Kieta, A.R. (2021). The precision teaching system: A synthesized definition, concept analysis, and process. Behavior Analysis in Practice, 14(3), 559-576. https://doi.org/10.1007/s40617-020-00502-2
  7. Gao, Z., & Dong, J. C. (2019). From the four diagnoses to the precise diagnosis and treatment of Chinese medicine. Chinese Journal of Traditional Chinese Medicine, 34(1), 13-17.
  8. Johnson, K. R., & Street, E. M. (2014). Precision teaching: The legacy of Ogden Lindsley. In F. K. McSweeney & E. S. Murphy (Eds.), The Wiley Blackwell handbook of operant and classical conditioning (pp. 581-609). Hoboken: John Wiley & Sons.
  9. Li, X. Z., & Li, G. (2022). Study on the optimization path of homework design in China's compulsory education in the context of "double reduction". Educational Theory and Practice, 42(20), 3-7.
  10. Liu, N., & Yu, S. Q. (2020). Research on precision teaching based on the nearest developmental zone. Research in Electro-Chemical Education, 41(7), 77-85. doi:10.13811/j.cnki.eer.2020.07.011.
  11. Ma, W. J., & Bao, J.S. (2013). "Learning analysis": functions, contents and methods. Educational Science Research, 24(9), 52-57.
  12. Organisation for Economic Co-operation and Development [OECD]. (2016). PISA 2015 Results (Volume I): Excellence and equity in education. OECD Publishing.
  13. Peng, H. C., & Zhu, Z. T. (2016). Generative design of precise teaching activities for smart learning. Electrochemical Education Research, 37(8), 53-62.
  14. Prendergast, M., & Zhang, H. (2016). A comparative study of students attitudes towards mathematics in two different school systems. International Journal for Mathematics Teaching and Learning, 7(2), 1-24.
  15. Qin, D., & Zhang, L. X. (2019). Problems and optimization: a realistic review and reflection of classroom precision teaching practices. Research in Electro-Chemical Education, 40(11), 63-69. doi:10.13811/j.cnki.eer.2019.11.009.
  16. Stromgren, B., Berg-Mortensen, C., & Tangen, L. (2014). The use of precision teaching to teach basic math facts. European Journal of Behavior Analysis, 15(2), 225-240. https://doi.org/10.1080/15021149.2014.11434723
  17. Tang, F., Tang, Q. F., Tian, Y. X., Qin, F., Huang, Y. & Tang, X. M. (2015). Network pharmacology-based prediction of the active ingredients and potential targets of Mahuang Fuzi Xixin decoction for application to allergic rhinitis. Journal of Ethnopharmacology, 176(176), 402-412. https://doi.org/10.1016/j.jep.2015.10.040
  18. Wang, L. F., Xia, L. L. & He, W. T. (2021). Returning to pedagogical precision teaching - towards human-computer collaboration. Research in Electro-Chemical Education 42(12), 108-114. doi:10.13811/j.cnki.eer.2021.12.015.
  19. Wang, J., & Li, X. J. (2010). Drug targets discovery based on dynamic signal transduction networks. Journal of Pharmaceutical Sciences, 45(1), 1-8.
  20. Wang, Y. G., Xiao, R., Mo, S. R., Shen, Y.F. & Tong, G.H. (2019). Research on the effectiveness of e-schoolbag-enabled precise teaching model--a case study of middle school mathematics review class. China Electrochemical Education, 40(5), 106-113.
  21. Xie, J., Gao, S., Li, L., Xu, Y. L., Gao, S. M., & Yu, C. Q. (2019). Research progress and application strategies of network pharmacology in the field of traditional Chinese medicine. Chinese Herbal Medicine, 50(10), 2257-2265.
  22. Zhang, Z. Y. (2021). Reconstruction and governance of public education system under the "double reduction" pattern. Chinese Journal of Education, 42(9), 20-26.
  23. Zhu, Z. T., & Peng, H. C. (2016). Efficient knowledge teaching supported by information technology: Energizing precision teaching and learning. China Electrochemical Education, 37(1), 18-25.
  24. Zhu, Z. T., & Peng, H. C. (2020). The practical path of technology-enabled smart education. Chinese Journal of Education, 41(10), 1-8.