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

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Students often use available help facilities in an unproductive  
 
Students often use available help facilities in an unproductive  
fashion. To improve students’ help-seeking behavior we built 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 classroom evaluation the Help Tutor captured help-seeking errors that were associated with poorer learning and with poorer [[declarative]] and procedural knowledge of help seeking. Also, students performed less help-seeking errors while working with the Help Tutor. However, we did not find evidence that  
+
fashion. To improve students’ help-seeking behavior we built 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 classroom evaluation the Help Tutor captured help-seeking errors that were associated with poorer learning and with poorer [[declarative]] and [[procedural]] knowledge of help seeking. Also, students performed less help-seeking errors while working with the Help Tutor. However, we did not find evidence that  
 
they learned the intended help-seeking skills, or learned the domain knowledge better. A new version of the tutor that includes a self-assessment component and explicit help-seeking instruction, complementary to the metacognitive feedback, is now being evaluated.
 
they learned the intended help-seeking skills, or learned the domain knowledge better. A new version of the tutor that includes a self-assessment component and explicit help-seeking instruction, complementary to the metacognitive feedback, is now being evaluated.
  

Revision as of 20:11, 27 December 2006

Towards Tutoring Metacognition - The Case of Help Seeking

Ido Roll, Vincent Aleven, Bruce McLaren, Kenneth Koedinger

Abstract

Students often use available help facilities in an unproductive fashion. To improve students’ help-seeking behavior we built 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 classroom evaluation the Help Tutor captured help-seeking errors that were associated with poorer learning and with poorer declarative and procedural knowledge of help seeking. Also, students performed less help-seeking errors while working with the Help Tutor. However, we did not find evidence that they learned the intended help-seeking skills, or learned the domain knowledge better. A new version of the tutor that includes a self-assessment component and explicit help-seeking instruction, complementary to the metacognitive feedback, is now being evaluated.

Glossary

  • Help Avoidance: An action in which the student attempts to solve the problem, even though they are assumed to be needing some form of help. This can be determined by the students' skill estimation, recent history of errors on the same step, etc.
  • Help Abuse: An action in which the students asks for help even though she is knowledgeable enough to attempt the step on her own.
  • Bottom out hint: The Cognitive Tutors have contextualized hints which offer several levels of support for students. Bottom out hint refers to the last level of hint, which usually conveys the answer.
  • Metacognition: Metacognition is the set of skills which manages the learning process. The decision what activities to perform next is an example for a metacognitive question.
  • Gaming the system: Attempting to make progress within the curriculum without thinking through the material, for example, by repeatedly guessing or using bottom-out hints

Research question

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

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 KCs: The ability to identify the need for help, and to elicit appropriate assistance from the relevant resources. However, considerable evidence shows that metacognitive knowledge components 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. Also, research shows that students' help-seeking behavior is far from ideal. This study focuses on students' Help Seeking behavior. While students already have knowledge components which regulate their help seeking behavior, these are often faulty or shallow. For example, students often have the following shallow Help Seeking KC:

Faulty procedural KC: 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 KCs:

 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

Rather than making the metacogntive decisions for the students (for example, by preventing help-seeking errors or gaming opportunities), this study focuses on helping students refine the Help Seeking KCs and acquire better feature validly.

This study has three main contributions:

  1. To investigate 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 KCs.
  3. To develop a framework for defining goals for metacognitive tutoring and directly assess metacognitive learning.

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

  • Improve feature validity of students' help seeking skills

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

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


Descendents

FAQ for teachers

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.
  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 Int C on Intelligent Tutoring Systems, 227-39. Berlin: Springer-Verlag.
  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 Int C on Artificial Intelligence in Education, Amsterdam, The Netherlands: IOS press.
  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 J of Artificial Intelligence in Education(16), 101-30
  5. Roll, I., Aleven, V., & Koedinger, K.R. (2004) Promoting Effective Help-Seeking Behavior through Declarative Instruction. in proceedings of 7th Int C on Intelligent Tutoring Systems, 857-9. Berlin: Springer-Verlag.
  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.
  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 Int C on Intelligent Tutoring Systems, 738-40. Berlin: Springer Verlag.
  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.