Instructional Science

, Volume 33, Issue 5–6, pp 367–379 | Cite as

Scaffolding Self-regulated Learning and Metacognition – Implications for the Design of Computer-based Scaffolds

  • Roger AzevedoEmail author
  • Allyson F. Hadwin


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  1. Anderson, J.R., Corbett, A.T., Koedinger, K.R., Pelletier, R. 1995Cognitive tutors: Lessons learnedThe Journal of the Learning Sciences4167207CrossRefGoogle Scholar
  2. Aleven, V., Koedinger, K. 2002An effective metacognitive strategy: Learning by doing and explaining with a computer-based Cognitive TutorCognitive Science26147181CrossRefGoogle Scholar
  3. Azevedo, R. Computers as metacognitive tools for enhancing learning. Educational Psychologist (in press).Google Scholar
  4. Azevedo, R. (2003). Metacognition and self-regulation in learning with MetaCognitive tools. Proceedings of the workshop on metacognition and self-regulation in learning with Metacognitive tool held at the 11th International Conference on Artificial Intelligence in Education. Amsterdam: IOS press.Google Scholar
  5. Azevedo, R. 2002Beyond intelligent tutoring systems: Computers as MetaCognitive tools to enhance learning?Instructional Science303145CrossRefGoogle Scholar
  6. Azevedo, R., Cromley, J.G. 2004Does training on self-regulated learning facilitate students’ learning with hypermedia?Journal of Educational Psychology96523535CrossRefGoogle Scholar
  7. Azevedo, R., Cromley, J.G., Seibert, D. 2004Does adaptive scaffolding facilitate students’ ability to regulate their learning with hypermediaContemporary Educational Psychology29344370CrossRefGoogle Scholar
  8. Azevedo, R., Cromley, J.G., Winters, F.I., Moos, D.C., Greene, J.A. 2005Adapative human scaffolding facilitates adolescents' self-regulated learning with hypermediaInstructional science33381412(this issue).Google Scholar
  9. Baylor, A. L. 2002Agent-based learning environments for investigating teaching and learningJournal of Educational Computing Research26249270CrossRefGoogle Scholar
  10. Brush, T., Saye, J. 2001The use of embedded scaffolds with hypermedia-supported student-centered learningJournal of Educational Multimedia and Hypermedia10333356Google Scholar
  11. Chi, M.T.H., Leeuw, N., Chiu, M.-H., LaVancher, C. 1994Eliciting self-explanations improves understandingCognitive Science18439477CrossRefGoogle Scholar
  12. Chi, M.T.H., Siler, S., Jeong, H., Yamauchi, T., Hausmann, R. 2001Learning from human tutoringCognitive Science25471534CrossRefGoogle Scholar
  13. Choi, I., Land, S.M., Turgeon, A.Y. 2005Scaffolding peer-questioning strategies to facilitate metacognition during online small group discussionInstructional science33483511(this issue).Google Scholar
  14. Conati, C., VanLehn, K. 2000Toward computer-based support of meta-cognitive skills: A computational framework to coach self-explanationInternational Journal of Artificial Intelligence in Education11389415Google Scholar
  15. Dabbagh, N., Kitsantas, A. 2005Using web-based pedagogical tools as scaffolds for self-regulated learningInstructional Science33513540(this issue).Google Scholar
  16. Derry, S.J. & Lajoie, S.P. Computers as Cognitive Tools (1st ed). Hillsdale, NJ: Erlbaum.Google Scholar
  17. Graesser, A., McNamara, D. & VanLehn, K. Scaffolding deep comprehension strategies through Pint&Query, AuthTutor and iSTRAT. Educational Psychologist (in press).Google Scholar
  18. Graesser, A., Wiemer-Hastings, K., Wiemer-Hastings, P., Kruez, R., The Tutoring Research Group. (2000). AutoTutor: A simulation of a human tutor. Journal of Cognitive Systems Research 1: 35–51.Google Scholar
  19. Greene, B., Land, S. 2000A qualitative analysis of scaffolding use in a resource-based learning environment involving the world wide webJournal of Educational Computing Research23151179CrossRefGoogle Scholar
  20. Hadwin, A., Winne, P. 2001CoNoteS2: A software tool for promoting self-regulationEducational Research and Evaluation7313334CrossRefGoogle Scholar
  21. Hadwin, A.F., Wozney, L., Pantin, O. 2005Scaffolding the appropriation of self-regulatory activity; A socio-cultural analysis of changes in teacher-student discourse about a graduate research portfolioInstructional Science33413450(this issue).Google Scholar
  22. Hannafin, M., Hill, J., Land, S. 1999Student-centered learning and interactive multimedia: Status, issues, and implicationContemporary Education689499Google Scholar
  23. Hannafin, M.J., Land, S.M. 1997The foundations and assumptions of technology-enhanced student-centered learning environmentsInstructional Science25167202CrossRefGoogle Scholar
  24. Hill, J., Hannafin, M. 1997Cognitive strategies and learning from the World Wide WebEducational Technology Research & Development453764Google Scholar
  25. Hogan, K., Pressley, M. 1997Scaffolding Student Learning: Instructional Approaches and IssuesBrookline BooksCambridge MAGoogle Scholar
  26. Jacobson, M., Archodidou, A. 2000The design of hypermedia tools for learning: Fostering conceptual change and transfer of complex scientific knowledgeJournal of the Learning Sciences9149199CrossRefGoogle Scholar
  27. Koedinger, K. 2001Cognitive tutors as modeling tools and instructional modelsForbus, K.D.Feltovich, P.J. eds. Smart Machines in EducationMIT PressCambridge, MA145167Google Scholar
  28. Lajoie, S.P. & Azevedo, R. Teaching and learning in technology-rich environments. In P. Alexander & P. Winne eds., Handbook of educational psychology (2nd edn.). Mahwah, NJ: Erlbaum (in press).Google Scholar
  29. Lajoie, S.P., Azevedo, R. 2000Cognitive tools for medical informaticsLajoie, S.P. eds. Computers as Cognitive Tools II: No More Walls: Theory Change, Paradigm Shifts and Their Influence on the Use of Computers for Instructional PurposesErlbaumMahwah, NJ247271Google Scholar
  30. Land, S., Greene, B. 2000Project-based learning with the World Wide Web: A qualitative study of resource integrationEducational Technology Research Development486178Google Scholar
  31. Luckin, R., Du Boulay, B. 1999Ecolab: The development and evaluation of a Vygotskian design frameworkInternational Journal of Artificial Intelligence in Education10198220Google Scholar
  32. Oliver, K., Hannafin, M.J. 2000Student management of web-based hypermedia resources during open-ended problem solvingJournal of Educational Research947593Google Scholar
  33. Palinscar, A.S. 1998Keeping the metaphor of scaffolding fresh – A response to C. Addison Stone’s The metaphor of scaffolding: Its utility for the field learning disabilitiesJournal of the Learning Disabilities31371373Google Scholar
  34. Pea, R.D. 2004The social and technological dimensions of scaffolding and related theoretical concepts for learning, education, and human activityJournal of the Learning Sciences13423451Google Scholar
  35. Pintrich, P., Zusho, A. 2002The development of academic self-regulation: The role of cognitive and motivational factorsWigfield, A.Eccles, J. eds. Development of Achievement MotivationAcademic PressSan Diego249284Google Scholar
  36. Puntambekar, S., Hubscher, R. 2005Tools for scaffolding students in a complex learning environment: What have we gained and what have we missed?Educational Psychologist40112CrossRefGoogle Scholar
  37. Puntambekar, S., Stylianou, A. 2005Designing navigation support in hypertext systems based on navigation patternsInstructional Science33451481(this issue).Google Scholar
  38. Quitana, C., Zhang, X. & Krajcik, J. A framework for supporting metacognitive aspects of on-line inquiry through software-based scaffolding. Educational Psychologist (in press).Google Scholar
  39. Reiser, B. 2004Scaffolding complex learning: The mechanisms of structuring and problematizing student workJournal of the Learning Sciences13930273304CrossRefGoogle Scholar
  40. Reiser, B.J. (2002). Why scaffolding should sometimes make tasks more difficult for learners. Proceedings of the annual meeting of the CSCL (pp. 255–264).Google Scholar
  41. Shute, V., Psotka, J. 1996Intelligent tutoring system: Past, present, and futureJonassen, D. eds. Handbook of Research for Educational Communications and TechnologyMacmillanNY570600Google Scholar
  42. Stone, C.A. 1998The metaphor pf scaffolding: Its utility for the field of learning disabilitiesJournal of the learning Disabilities31344364Google Scholar
  43. Vye, N., Schwartz, D., Bransford, J., Barron, B., Zech, L. & CTGV. (1998). SMART environments that support monitoring, reflection, and revision. In D. Hacker, J.␣Dunlosky & A. Graesser, eds., Metacognition in Educational Theory and Practice (pp. 305–346). Mahwah, NJ: Erlbaum.Google Scholar
  44. White, B. & Frederiksen, J. A theoretical framework and approach for fostering metacognitive development. Educational Psychologist (in press).Google Scholar
  45. White, B., Shimoda, T., Frederiksen, J. 2000Facilitating students’ inquiry learning and metacognitive development through modifiable software advisorsLajoie, S. eds. Computers as Cognitive Tools Volume Two: No More WallsErlbaumMahwah, NJ97132Google Scholar
  46. Wood, D., Bruner, J., Ross, G. 1976The role of tutoring in problem solvingJournal of Child Psychology and Psychiatry and Allied Disciplines1789100Google Scholar

Copyright information

© Springer 2005

Authors and Affiliations

  1. 1.Department of Human DevelopmentUniversity of MarylandCollege ParkUSA
  2. 2.Department of Educational Psychology and Leadership StudiesUniversity of VictoriaVictoriaCanada

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