Difference between revisions of "Adaptive Assistance for Peer Tutoring (Walker, Rummer, Koedinger)"
Erin-Walker (talk | contribs) |
Erin-Walker (talk | contribs) |
||
Line 15: | Line 15: | ||
The integration of intelligent tutoring and collaborative learning allows us to investigate the differential effects of varying the type and adaptivity of assistance provided to collaborating peers on the acquisition of collaborative skills and on robust domain learning. Further, the development of a successful adaptive collaborative learning system would be a significant contribution to the ITS community. | The integration of intelligent tutoring and collaborative learning allows us to investigate the differential effects of varying the type and adaptivity of assistance provided to collaborating peers on the acquisition of collaborative skills and on robust domain learning. Further, the development of a successful adaptive collaborative learning system would be a significant contribution to the ITS community. | ||
− | === Background and Significance == | + | === Background and Significance === |
+ | |||
+ | === Glossary === | ||
+ | See [[:Category:Peer Tutoring|Peer Tutoring Glossary]] | ||
+ | |||
+ | === Research Question === | ||
+ | What are the differential effects of adaptive and fixed support on student collaborative process during a peer tutoring activity and the resulting [[robust learning]] outcomes? | ||
+ | |||
+ | How does an [[instructional method]] that provides metacognitive support and incentives for peer tutoring affect student collaborative process and [[robust learning]] outcomes? | ||
+ | |||
+ | === Independent variables === | ||
+ | We vary the [[agent]]s involved in the interaction using the [[instructional method|mode of instruction]]. For example, students may interact individually with a [[cognitive tutor]], may interact with each other using a [[collaboration script]], or may interact with each other with the help of a [[cognitive tutor]]. | ||
+ | |||
+ | We also plan to examine the type of assistance provided to the students. They may receive assistance to tutoring competence (either domain, metacognitive, or procedural) or motivational support. | ||
+ | |||
+ | === Hypotheses === |
Revision as of 19:20, 14 April 2008
Contents
Collaborative Extensions to the Cognitive Tutor Algebra: Adaptive Assistance for Peer Tutoring
Erin Walker, Nikol Rummel, and Ken Koedinger
Summary Tables
PI | Erin Walker |
Co-PIs | Nikol Rummel, Ken Koedinger |
Abstract
Our research goal is to integrate a peer tutoring script within the context of the Cognitive Tutor Algebra (CTA) allowing students to tutor each other through the interface of an intelligent tutoring system (ITS) that provides both domain support and collaborative tutoring. In the PSLC project, “Collaborative Extensions to the Cognitive Tutor Algebra: A Peer Tutoring Addition,” we have added peer tutoring to the Cognitive Tutor Algebra and developed adaptive domain support for the peer tutor. We propose to continue this work by developing and evaluating collaborative assistance for the peer tutor within this context. This assistance will target both the skills required to successfully tutor and the motivation for students to tutor. Once we have shown fixed collaborative assistance to be effective, we plan to implement it in an adaptive fashion, and compare the effects of adaptive and fixed assistance on collaborative skill acquisition and robust domain learning.
The integration of intelligent tutoring and collaborative learning allows us to investigate the differential effects of varying the type and adaptivity of assistance provided to collaborating peers on the acquisition of collaborative skills and on robust domain learning. Further, the development of a successful adaptive collaborative learning system would be a significant contribution to the ITS community.
Background and Significance
Glossary
Research Question
What are the differential effects of adaptive and fixed support on student collaborative process during a peer tutoring activity and the resulting robust learning outcomes?
How does an instructional method that provides metacognitive support and incentives for peer tutoring affect student collaborative process and robust learning outcomes?
Independent variables
We vary the agents involved in the interaction using the mode of instruction. For example, students may interact individually with a cognitive tutor, may interact with each other using a collaboration script, or may interact with each other with the help of a cognitive tutor.
We also plan to examine the type of assistance provided to the students. They may receive assistance to tutoring competence (either domain, metacognitive, or procedural) or motivational support.