Difference between revisions of "The Help Tutor Roll Aleven McLaren"

From LearnLab
Jump to: navigation, search
Line 2: Line 2:
 
Ido Roll, Vincent Aleven, Bruce McLaren, Kenneth Koedinger
 
Ido Roll, Vincent Aleven, Bruce McLaren, Kenneth Koedinger
  
 
* This page is currently being updated *
 
 
 
=== Abstract ===
 
=== Abstract ===
  
Line 20: Line 17:
  
 
Not only that teaching [[metacognition]] holds the promise of improving current learning of the domain of interest, but also, or even mainly, it can accelerate future learning and successful regulation of independent learning. One example to metacognitive knowledge is help-seeking [[knowledge component]]s: The ability to identify the need for help, and to elicit appropriate assistance from the [[relevant resources|help facilities].   
 
Not only that teaching [[metacognition]] holds the promise of improving current learning of the domain of interest, but also, or even mainly, it can accelerate future learning and successful regulation of independent learning. One example to metacognitive knowledge is help-seeking [[knowledge component]]s: The ability to identify the need for help, and to elicit appropriate assistance from the [[relevant resources|help facilities].   
However, considerable evidence shows that metacognitive [[knowledge component]]s are in need of better support. For example, while working with Intelligent Tutoring Systems (ITS), students try to "[[game the system]]" or do not [[self-explain]] enough. Similarly, research shows that students' [[help seeking behavior]] leaves much room for improvement.  
+
However, considerable evidence shows that metacognitive [[knowledge component]]s are in need of better support. For example, while working with Intelligent Tutoring Systems, students try to "[[game the system]]" or do not [[self-explain]] enough. Similarly, research shows that students' [[help seeking behavior]] leaves much room for improvement.  
  
 
==== Shallow help seeking [[knowledge component]]s ====
 
==== Shallow help seeking [[knowledge component]]s ====
Rather than not using help at all, research have shown that students use the [[help facilities]] in an unproductive manner. . This suggests that students have shallow help seeking [[knowledge component]]s, such as the following:
+
Research shows that students do not use their help-seeking konwledge components approrpiately. For example, Aleven et al. (2006) show that 30% of students' actions were consecutive fast help requests (termed '[[clicking through hints]]'), without taking enough time to read the requested hints.
 +
Extensive log-file analysis suggests that students apply faulty [[knowledge component]]s such as the following:
  
'''Faulty procedural [[knowledge component]]s:'''
+
'''Faulty [[procedural]] [[knowledge component]]s:'''
 
Cognitive aspects:
 
Cognitive aspects:
 
   If I don’t know the answer =>  
 
   If I don’t know the answer =>  
Line 38: Line 36:
 
   I am weak
 
   I am weak
  
'''Faulty declarative [[knowledge component]]s:'''
+
'''Faulty [[declarative]] [[knowledge component]]s:'''
  
 
   Asking for hints will always reduce my skill level
 
   Asking for hints will always reduce my skill level
Line 48: Line 46:
 
==== Teaching vs. supporting [[metacognition]] ====
 
==== Teaching vs. supporting [[metacognition]] ====
  
Several systems support students' metacognitive actions in a way that encourages, or even forces, students to learn productively and efficiently. While this approach is likely to improve domain learning in the supported environment, the effect is not likely to persist beyond the scope of the tutoring system, and therefore is not likely to help students become better future learners.  
+
Several systems support students' metacognitive actions in a way that encourages, or even forces, students to learn productively and efficiently. For example, a tutoring system can require the student to self-explain. While this approach is likely to improve domain learning in the supported environment, the effect is not likely to persist beyond the scope of the tutoring system, and therefore is not likely to help students become better future learners.  
  
Towards that end, we chose not to '''support''' students' help seeking actions, but to '''teach''' them better help-seeking skills. Rather than making the metacognitive decisions for the students (for example, by preventing help-seeking errors or gaming opportunities), this study focuses on helping students refine their Help Seeking [[knowledge component]]s and acquire better feature validly.
+
Towards that end, we chose not to '''support''' students' help seeking actions, but to '''teach''' them better help-seeking skills. Rather than making the metacognitive decisions for the students (for example, by preventing help-seeking errors or gaming opportunities), this study focuses on helping students refine their Help Seeking [[knowledge component]]s and acquire better [[feature validly]] of their [[help-seeking behavior|help-seeking]] [[metacognition|metacognitive skills]].
  
 
By doing so, we examine whether metacognitive knowledge can be taught using familiar conventional domain-level pedagogies.  
 
By doing so, we examine whether metacognitive knowledge can be taught using familiar conventional domain-level pedagogies.  
  
This study has three main contributions:
+
 
# It investigates the nature of help-seeking knowledge and its acquisition, by designing the help-seeking (meta)cognitive model and evaluating student's learning using it
 
# To investigate whether conventional means and established methods can be used to effectively teach metacognitive [[knowledge component]]s.
 
# To develop a framework for defining goals for metacognitive tutoring, design guidelines for metacognitive tutoring, and appropriate assessments of metacognitive learning.
 
  
 
=== Glossary ===
 
=== Glossary ===
Line 64: Line 59:
 
=== Research question ===
 
=== Research question ===
  
Can conventional and well-established instructional principles in the domain level be used to tutor metacognitive [[knowledge component]]s such as Help Seeking [[knowledge component]]s?
+
Can conventional and well-established instructional principles in the domain level be used to tutor [[metacognition|metacognitive]] [[knowledge component]]s such as [[help-seeking behavior|Help Seeking]] [[knowledge component]]s?
  
 +
This study has three main contributions:
 +
# It investigates the nature of help-seeking knowledge and its acquisition, by designing the help-seeking (meta)cognitive model and evaluating student's learning using it
 +
# To investigate whether conventional means and established methods can be used to effectively teach metacognitive [[knowledge component]]s.
 +
# To develop a framework for defining goals, design guidelines, and appropriate assessments for metacognitive tutoring.
  
 
=== Independent Variables ===
 
=== Independent Variables ===

Revision as of 23:13, 13 February 2007

Towards Tutoring Metacognition - The Case of Help Seeking

Ido Roll, Vincent Aleven, Bruce McLaren, Kenneth Koedinger

Abstract

While working with a tutoring system, students are expected to regulate their own learning process. However, often, they demonstrate inadequate metacognitive process in doing so. For example, students often ask for redundant help, or avoid required one. In this project we take a stab at building an Intelligent Tutoring System to teach metacognition. We do so by focusing on students help-seeking skills. To improve students’ help-seeking behavior, we built the Help Seeking Support Environment, that includes three components:

  1. Direct help seeking instruction, given by the teacher
  2. A Self-Assessment Tutor, to help students evaluate their own need for help
  3. The Help Tutor - a domain-independent agent that can be added as an adjunct to Cognitive Tutors. Rather than making help-seeking decisions for the students, the Help Tutor teaches better help-seeking skills by tracing students actions on a (meta)cognitive help-seeking model and giving students appropriate feedback.

In a series of classroom evaluations the Help Tutor captured help-seeking errors that were associated with poorer learning and with poorer declarative and procedural knowledge components of help seeking. Also, students performed less help-seeking errors while working with the Help Tutor, and acquired better help seeking declarative knowledge components. However, we did not find evidence that this led to an improvement in learning at the domain level or to better help-seeking behavior in a paper-and-pencil environment. We raise a number of hypotheses in an attempt to explain these results. We question the current focus of metacognitive tutoring, and suggest ways to reexamine the role of help facilities and of metacognitive tutoring within Intelligent Tutoring Systems.

Background and Significance

Not only that teaching metacognition holds the promise of improving current learning of the domain of interest, but also, or even mainly, it can accelerate future learning and successful regulation of independent learning. One example to metacognitive knowledge is help-seeking knowledge components: The ability to identify the need for help, and to elicit appropriate assistance from the [[relevant resources|help facilities]. However, considerable evidence shows that metacognitive knowledge components are in need of better support. For example, while working with Intelligent Tutoring Systems, students try to "game the system" or do not self-explain enough. Similarly, research shows that students' help seeking behavior leaves much room for improvement.

Shallow help seeking knowledge components

Research shows that students do not use their help-seeking konwledge components approrpiately. For example, Aleven et al. (2006) show that 30% of students' actions were consecutive fast help requests (termed 'clicking through hints'), without taking enough time to read the requested hints. Extensive log-file analysis suggests that students apply faulty knowledge components such as the following:

Faulty procedural knowledge components: Cognitive aspects:

 If I don’t know the answer => 
 I should guess

Motivational aspects:

 If I get the answer correct =>
 I achieved the goal

Social aspects:

 If I ask for help =>
 I am weak

Faulty declarative knowledge components:

 Asking for hints will always reduce my skill level
 Making an error is better than asking for a hint
 Only weak people ask for help

Teaching vs. supporting metacognition

Several systems support students' metacognitive actions in a way that encourages, or even forces, students to learn productively and efficiently. For example, a tutoring system can require the student to self-explain. While this approach is likely to improve domain learning in the supported environment, the effect is not likely to persist beyond the scope of the tutoring system, and therefore is not likely to help students become better future learners.

Towards that end, we chose not to support students' help seeking actions, but to teach them better help-seeking skills. Rather than making the metacognitive decisions for the students (for example, by preventing help-seeking errors or gaming opportunities), this study focuses on helping students refine their Help Seeking knowledge components and acquire better feature validly of their help-seeking metacognitive skills.

By doing so, we examine whether metacognitive knowledge can be taught using familiar conventional domain-level pedagogies.


Glossary

See Help Tutor Glossary

Research question

Can conventional and well-established instructional principles in the domain level be used to tutor metacognitive knowledge components such as Help Seeking knowledge components?

This study has three main contributions:

  1. It investigates the nature of help-seeking knowledge and its acquisition, by designing the help-seeking (meta)cognitive model and evaluating student's learning using it
  2. To investigate whether conventional means and established methods can be used to effectively teach metacognitive knowledge components.
  3. To develop a framework for defining goals, design guidelines, and appropriate assessments for metacognitive tutoring.

Independent Variables

The study evaluates the following independent variables:

  • Direct and immediate feedback on Help Seeking errors
  • Explicit declarative help-seeking instruction
  • Preparatory self-assessment episodes, to help students identify their knowledge deficits.

Dependent variables

The study uses two levels of dependent measures:

  • Directly assessing Help Seeking skills
  • Indirectly assessing help-seeking skills through their contribution to domain learning

Assessments of learning geometry domain knowledge:

  • Normal: Problem solving and explanation items like those in the tutor's instruction.
  • Transfer: Data insufficiency (or "not enough information") items included in the post-test form.

Assessments of improved help-seeking skills:

  • Normal (within training): Analyzing log-files against a model of ideal help-seeking behavior
  • Transfer: Do students effectively use optional hints embedded within certain test items to improve their score (90% credit if right after using the hint)
  • Long-term retention - assessing help-seeking behavior on subsequent learning events.

Hypothesis

The combination of explicit help-seeking instruction, on-time feedback on help seeking errors, and raising awareness to knowledge deficits will

and thus, in turn, will

  • Improve learning of domain knowledge by using those skills effectively.

Findings

From the first study:

  • Students help-seeking behavior, whether optimal or faulty, transfers well between environments.
  • Help Seeking feedback alone reduces help-seeking errors, but does not contribute to learning of HS skills, nor does it improve domain learning.

Analysis of data from the second study is in progress.

Explanation

Students do not have the skills, but we didn't teach them right. Students' behavior is actually good Students have them, but do not want to use them

While students demonstrated better help-seeking behavior, they did not learn more on the cognitive level. Several possible explanations (and remediations) for that are:

  • Lack of cognitive headroom
    • possible improvement: Preparatory self-assessment sessions
  • Feedback on errors alone is not sufficient for extracting the help-seeking principles
    • Explicit Help Seeking instruction
  • Deeply rooted behavior
    • Longer study, across several units
  • Faulty identification of productive learning paths
    • Improving model based on log file analysis
  • Ineffective hints
    • Shorter hint sequences


Connections

The Help Tutor attempts to extend traditional tutoring beyond the common domains. In that, it is similar to the work of Amy Ogan on tutoring French Culture

The manipulation of interaction between the student and the tutor, which is "natural" in the control condition, is guided by the help tutor. This is similar to the scripting manipulation of the Rummel Scripted Collaborative Problem Solving and the Walker A Peer Tutoring Addition projects.

Going to do an in-vivo study at a LearnLab site? Check out how to answer teacher's FAQ


Annotated bibliography

  1. Aleven, V., & Koedinger, K.R. (2000) Limitations of student control: Do students know when they need help? in proceedings of 5th International Conference on Intelligent Tutoring Systems, 292-303. Berlin: Springer Verlag. [pdf]
  2. Aleven, V., McLaren, B.M., Roll, I., & Koedinger, K.R. (2004) Toward tutoring help seeking - Applying cognitive modeling to meta-cognitive skills . in proceedings of 7th International Conference on Intelligent Tutoring Systems, 227-39. Berlin: Springer-Verlag. [pdf]
  3. Aleven, V., Roll, I., McLaren, B.M., Ryu, E.J., & Koedinger, K.R. (2005) An architecture to combine meta-cognitive and cognitive tutoring: Pilot testing the Help Tutor. in proceedings of 12th International Conference on Artificial Intelligence in Education, Amsterdam, The Netherlands: IOS press. [pdf]
  4. Aleven, V., McLaren, B.M., Roll, I., & Koedinger, K.R. (2006). Toward meta-cognitive tutoring: A model of help seeking with a Cognitive Tutor. Int Journal of Artificial Intelligence in Education(16), 101-30 [pdf]
  5. Roll, I., Aleven, V., & Koedinger, K.R. (2004) Promoting Effective Help-Seeking Behavior through Declarative Instruction. in proceedings of 7th International Conference on Intelligent Tutoring Systems, 857-9. Berlin: Springer-Verlag. [pdf]
  6. Roll, I., Baker, R.S., Aleven, V., McLaren, B.M., & Koedinger, K.R. (2005) Modeling Students’ Metacognitive Errors in Two Intelligent Tutoring Systems. in L. Ardissono, (Eds.), in proceedings of User Modeling 2005, 379-88. Berlin: Springer-Verlag. [pdf]
  7. Roll, I., Ryu, E., Sewall, J., Leber, B., McLaren, B.M., Aleven, V., & Koedinger, K.R. (2006) Towards Teaching Metacognition: Supporting Spontaneous Self-Assessment. in proceedings of 8th International Conference on Intelligent Tutoring Systems, 738-40. Berlin: Springer Verlag. [pdf]
  8. Roll, I., Aleven, V., McLaren, B.M., Ryu, E., Baker, R.S., & Koedinger, K.R. (2006) The Help Tutor: Does Metacognitive Feedback Improves Students' Help-Seeking Actions, Skills and Learning? in proceedings of 8th Int C on Intelligent Tutoring Systems, 360-9. Berlin: Springer Verlag. [pdf]