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技术如何促进学习,特别是更好地促进个性化学习是当前教育技术学研究的核心。本研究基于学习技术(CTCL)理论,探讨基于认知起点的学习资源设计对学习者学业成绩和认知发展的影响。研究以小学数学“中位数与众数”单元知识为学习内容开展实证研究,将73名小学生分成对照组、实验1组和实验2组;利用技术对实验1组和实验2组学生的认知起点进行诊断,并基于此分别设计单向式和互动式的个性化学习资源,通过自主研发的学习支持系统针对不同的认知起点类型进行个性化资源的推送和学习。实验结果显示,不同的学习资源能够对学生的个性化学习产生不同影响,互动式学习资源在个性化学习中更能促进学生的认知发展,并提升学业成绩。
Abstract:One of the focuses of current educational technology research is how technology can better promote personalized learning. Based on the theory of learning technology(CTCL), this study explores the impact of cognitive starting point-based learning resource design on learners' academic performance and cognitive development. An empirical study was conducted using the learning content of “Median and Mode” unit in primary school mathematics as an example. The sample was 73 students divided into a control group, experimental group 1, and experimental group 2. The study used technology to diagnose the cognitive starting points of students from the two experimental groups, and designed one-way and interactive personalized learning resources. A learning support system was used to deliver personalized resources for students with different cognitive starting points. The experimental results show that various learning resources can have different effects on students' personalized learning, and interactive learning resources can better promote students' cognitive development and academic performance in personalized learning.
[1] Mayer,R.E.Using Multimedia for E-learning [J].Journal of Computer Assisted Learning,2017(5):403-423.
[2] Chu,H.C.& Hung,C.M.Effects of the Digital Game-development Approach on Elementary School Students' Learning Motivation,Problem Solving,and Learning Achievement [J].International Journal of Distance Education Technologies,2015(1):87-102.
[3] Khan,A.,Ahmad,F.H.,& Malik,M.M.Use of Digital Game-based Learning and Gamification in Secondary School Science:The Effect on Student Engagement,Learning and Gender Difference [J].Education and Information Technologies,2017(6):1-38.
[4] Penuel,W.R.,Roschelle,J.,& Shechtman,N.Designing Formative Assessment Software with Teachers:An Analysis of the Co-design Process [J].Research and Practice in Technology Enhanced Learning,2007(1):51-74.
[5] Lan,Y.J.,Sung,Y.T.,& Chang,K.E.A Mobile-devices Supported Peer-assisted Learning System for Collaborative Early EFL Reading [J].Language Learning and Technology,2007(3):130-151.
[6] Shamir,A.& Korat,O.Educational Electronic Books for Supporting Emergent Literacy of Kindergarteners At-risk for Reading Difficulties — What Do We Know So Far [J].Computers in the Schools,2015(2):105-121.
[7] Plass,J.L.,Homer,B.D.,& Hayward,E.Design Factors for Educationally Effective Animations and Simulations [J].Journal of Computing in Higher Education,2009(1):31-61.
[8] Paas,F.& Sweller,J.An Evolutionary Upgrade of Cognitive Load Theory:Using the Human Motor System and Collaboration to Support the Learning of Complex Cognitive Tasks [J].Educational Psychology Review,2012(1):27-45.
[9] Akdemir,O.& Koszalka,T.Investigating the Relationships among Instructional Strategies and Learning Styles in Online Environments [J].Computers & Education,2008(4):1451-1461.
[10] Lamb,R.L.,Annetta,L.,Firestone,J.,et al.A Meta-analysis with Examinations of Moderators of Student Cognition,Affect,and Learning Outcomes While Using Serious Educational Games,Serious Games,and Simulations [J].Computers in Human Behavior,2018(80):158-167.
[11] Murray,M.,Pérez,J.,Geist,D.,et al.Student Interaction with Content in On-line and Hybrid Courses:Leading Horses to the Proverbial Water [J].Informing Science,2013(16):99-115.
[12] Harvey,M.,Coulson,D.,& McMaugh,A.Toward a Theory of the Ecology of Reflection:Reflective Practice for Experiential Learning in Higher Education [J].Journal of University Teaching and Learning Practice,2016(2):1-20.
[13] Mislevy,R.J.Evidence-centered Design for Simulation-based Assessment [Supplemental Material] [J].Military Medicine,2013(10):107-114.
[14] Merchant,Z.,Goetz,E.T.,Cifuentes,L.,et al.Effectiveness of Virtual Reality-based Instruction on Students Learning Outcomes in K-12 and Higher Education:A Meta-analysis [J].Computers & Education,2014(70):29-40.
[15] 董玉琦,王靖,伊亮亮,等.CTCL:教育技术学研究的新范式(1)——基本构想与初步研究[J].远程教育杂志,2012(2):3-14.
[16] 董玉琦,包正委,刘向永,等.CTCL:教育技术学研究的新范式(2)——从“媒体应用”、“课程整合”到“学习技术”[J].远程教育杂志,2013(2):3-12.
[17] 董玉琦,王靖,伊亮亮,等.CTCL:教育技术学研究的新范式(3)——基础、命题与应用[J].远程教育杂志,2014(3):23-32.
[18] 王靖,董玉琦.促进偏差认知转变的教学策略构建与应用研究[J].电化教育研究,2016(12):74-81.
[19] 伊亮亮,董玉琦,钱薇旭.基于“视觉局限补偿”机理的微视频设计模型——以初中物理“光现象”单元的学习为例[J].中国电化教育,2017(3):121-126.
[20] 胡航,董玉琦.技术促进深度学习:“个性化—合作”学习的理论构建与实证研究[J].远程教育杂志,2017(3):48-61.
[21] 尹相杰,董玉琦,胡航.CTCL视野下的小学数学概念转变的实证研究——以“相交与垂直”为例[J].现代教育技术,2018(2):47-53.
[22] 董玉琦,高子男,于文浩,等.学习技术(CTCL)范式下的技术促进学习研究进展(1):基本认识、研究设计与初步成果[J].中国电化教育,2021(9):32-41.
[23] 董玉琦,林琳,林卓男,等.学习技术(CTCL)范式下技术促进学习研究进展(2):技术支持的基于认知发展的个性化学习[J].中国电化教育,2021(10):17-23.
[24] 董玉琦,王靖,施智勇,等.学习技术(CTCL)范式下技术促进学习研究进展(3):小学数学《中位数与众数》单元教学的实验研究[J].中国电化教育,2021(11):115-123.
[25] 高文.情境学习与情境认知,教育发展与研究[J].2001(8):30-35
[26] 张倩苇,向娅.基于视觉表征的微学习资源的设计与应用研究———以《信息素养》课程教学为例[J].现代远距离教育,2016(2):49-55.
[27] 钟启泉.“能动学习”与能动型教师[J].中国教育学刊,2020(8):82-88.
[28] Hung,H.T.Flipping the Classroom for English Language Learners to Foster Active Learning [J].Computer Assisted Language Learning,2015(1):81-96.
[29] Wolff,M.,Wagner,M.J.,Poznanski,S.,et al.Not Another Boring Lecture:Engaging Learners with Active Learning Techniques [J].The Journal of Emergency Medicine,2015(1):85-93.
基本信息:
中图分类号:G623.5;G434
引用信息:
[1]谷伟,董玉琦,陈兴冶,等.基于认知起点的互动式个性化学习资源设计——以小学数学“中位数与众数”为例[J].全球教育展望,2023,52(07):71-81.
2023-07-10
2023-07-10