Difference between revisions of "Note-Taking Technologies"

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== Background/Significance ==
 
== Background/Significance ==
  
Note-taking research has shown that the process of taking notes can have a positive impact on long-term retention (Katayama 2005, 2006). Our preliminary studies have provided strong evidence that the features included in online note-taking applications impact how students take notes. We have also found that these differences can affect learning in several ways. These differences provide an opportunity to learn more about note-taking. Our main research question regards how and when note-taking increases long-term retention. By addressing this question, we have the opportunity to develop note-taking applications that encourage active processing and retention.  
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Note-taking research has shown that the process of taking notes can have a positive impact on long-term retention (Kobayashi 2005, 2006). Two main processes have been proposed to explain the mechanisms behind learning gains. The attention hypothesis is that "note-taking forces the learner to pay more attention to the presented material", while the generation hypothesis states that note-taking causes students to "actively relate the material to existing knowledge" (Peper and Mayer, 1986). There is little behaviroal data to support either of these hypothesis. Technology may allows us to investigate these hypothesis in greater detail, as our preliminary studies indicate it provides a level of control over the note-taking process, and thus behavior.  
  
There is extensive research on note-taking in both the educational psychology and educational technology fields. About half of note-taking studies have shown the process of note-taking to be beneficial to learning. Three-fourths of studies find that notes are a valuable resource when they can be reviewed (Kiewra, 1991). The cause of note-taking benefits is unclear, however. It has been attributed to rewording or summarizing, but experimental results are equivocal.
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It is useful to cast the two above hypotheses in PSLC terms. The attention hypothesis can be restated with regards to the [[focusing]] aspect of [Refinement and Fluency]]. Note-taking thus facilitates learning when it requires students to focus on the critical [[knowledge components]] of the learning material. The generation hypothesis can be restated with regards to the [[Coordinative Learning]] cluster. Note-taking faciliates learning when it requires students to coordinate multiple versions of the same learning material.  
  
Note-taking technology provides new ways of studying note-taking, and provides investigators with more control over the note-taking process. This gives us the opportunity to study note-taking in further depth, perhaps elucidating the circumstances in which note-taking is beneficial. Unfortunately, few researchers have taken advantage of this opportunity. Most note-taking technology is developed to simply mimic paper-based practices, or provide new ways of taking notes.  
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Our [[Note-Taking:_Restriction_and_Selection|preliminary results]] indicate some support for the focusing hypothesis. We found that when students use copy-paste functionality, they performed worse on items that they recorded in a wordy fashion than they did on items they recorded more efficiently. The wordiness may be an indication of students' [[focusing|focus]], showing a lack of attention to the critical components of the ideas. In addition, copy-paste functionality increased the number of items students recorded when compared to note-taking via typing. This may be an indication of decreased attention to key ideas.  
 
 
These new devices have been shown to change the way students take notes, reinforcing the need to study how note-taking practices affect learning, if at all. Our investigations our a first step in doing so.
 
  
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Technology offers a valuable comparison by which to evaluate the coordination hypothesis. While copy-paste note-taking involves the creation of a secondary notepad, which is available at all times, highlighting does not involve a notepad. Coordinating the information in the notepad with the information in the window may promote learning, much as seen in Wiley's work (Wiley, 2001).
  
 
== Dependent Variables ==
 
== Dependent Variables ==
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''References''
 
''References''
 
# Kobayashi, K. (2005). What Limits the Encoding Effect of Note-Taking? A meta-analytic examination., Contemporary Educational Psychology, 30, 242-262
 
# Kobayashi, K. (2005). What Limits the Encoding Effect of Note-Taking? A meta-analytic examination., Contemporary Educational Psychology, 30, 242-262
# Kobayashi, K. (2006). Combined Effects of Note-Taking/-Reviewing on Learning and the Enhancement Through Interventions: A meta-analytic review. Educational Psychology 26, 3 (2006) 459-477
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# Kobayashi, K. (2006). Combined Effects of Note-Taking/-Reviewing on Learning and the Enhancement Through Interventions: A meta-analytic review. (1986). Educational Psychology 26, 3 (2006) 459-477
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# Peper, R.J., Mayer, R.E., Generative Effects of Note taking During Science Lectures. Journal of Educational Psychology 78, 1  34-38
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#Wiley, J. (2001) Supporting understanding through task and browser design. Proceedings of the Twenty-third annual Conference of the Cognitive Science Society, (pp. 1136-1143). Hillsdale, NJ: Erlbaum.
  
 
The following is a reference to a conference paper regarding our earlier study contrasting handwriting, typing, and copy-paste.
 
The following is a reference to a conference paper regarding our earlier study contrasting handwriting, typing, and copy-paste.

Revision as of 17:22, 29 March 2007

Abstract

We are conducting an investigation into the relationship between note-taking and learning in online courses. The literature has shown that the process of taking notes can have a positive impact on long-term retention. Our completed studies indicate that the features included in online note-taking applications can have an effect on these process benefits. Analyses of our results have led us to explore the effect of selection-based note-taking on both behavior and learning.

Via several completed and proposed experiments, we are exploring two general hypothesis regarding the effect of note-taking on learning. First, we believe that note-taking encourages active processing, and thus long-term retention, when it requires students to attend to the critical elements of the learning material. This results in increased feature validity of the mental representation of the knowledge component. This falls within the Refinement and Fluency cluster. Our second hypothesis is that note-taking facilitates long-term retention when it involves the use of multiple representations of concepts. This falls within the Coordinative Learning cluster. Our studies are designed to evaluate these hypotheses by comparing note-taking tools offering different functionality.


Glossary

Selection: This term is used in the context of this study to identify the behavior of using the mouse and cursor to actively highlight a portion of digital text. Selection is first step for several online note-taking techniques, including copy-paste and annotation.

Copy-Paste: This is the act of selecting material, copying it to the computer clipboard (via a keyboard shortcut or menu), and then pasting it into students’ notes.

Highlighting: The act of creating a lasting distinction between the selected text and the main content. For example, through creating a yellow background or underlining the text.

Research Question

Can we improve learning outcomes in online courses by changing the way students can take notes?

Background/Significance

Note-taking research has shown that the process of taking notes can have a positive impact on long-term retention (Kobayashi 2005, 2006). Two main processes have been proposed to explain the mechanisms behind learning gains. The attention hypothesis is that "note-taking forces the learner to pay more attention to the presented material", while the generation hypothesis states that note-taking causes students to "actively relate the material to existing knowledge" (Peper and Mayer, 1986). There is little behaviroal data to support either of these hypothesis. Technology may allows us to investigate these hypothesis in greater detail, as our preliminary studies indicate it provides a level of control over the note-taking process, and thus behavior.

It is useful to cast the two above hypotheses in PSLC terms. The attention hypothesis can be restated with regards to the focusing aspect of [Refinement and Fluency]]. Note-taking thus facilitates learning when it requires students to focus on the critical knowledge components of the learning material. The generation hypothesis can be restated with regards to the Coordinative Learning cluster. Note-taking faciliates learning when it requires students to coordinate multiple versions of the same learning material.

Our preliminary results indicate some support for the focusing hypothesis. We found that when students use copy-paste functionality, they performed worse on items that they recorded in a wordy fashion than they did on items they recorded more efficiently. The wordiness may be an indication of students' focus, showing a lack of attention to the critical components of the ideas. In addition, copy-paste functionality increased the number of items students recorded when compared to note-taking via typing. This may be an indication of decreased attention to key ideas.

Technology offers a valuable comparison by which to evaluate the coordination hypothesis. While copy-paste note-taking involves the creation of a secondary notepad, which is available at all times, highlighting does not involve a notepad. Coordinating the information in the notepad with the information in the window may promote learning, much as seen in Wiley's work (Wiley, 2001).

Dependent Variables

Tests

Note: all tests include both multiple choice and free response questions. The multiple choice questions all involve solving problems (for example, given a response structure, which variables are direct causes of an effect, or which interact to produce an effect). In addition, some free response questions ask students to explain terminology used in the module.

Normal Learning, immediate: Students are given a test immediately after studying the material.

Long-Term Retention, Normal Learning: Students return a week following the treatment (which lasts between 30 and 90 minutes) to take this test.

Normal Learning, review: After taking the long-term retention test, students are given their notes to review for 5 minutes. Following this review period, students take a final test.


Behavior

Note-Quantity: The total number of ideas students place in their notes is captured, as well as the number of words used to express those ideas.

Note-Wording: How students word their notes is recorded. Each ideas is either recorded Verbatim, Abbreviated, or in students Own words.

Completion Time: The time students take to complete the learning material is recorded.

Motivation/Interest

Experience: After taking the final test, students are given a survey which solicits their reaction to the tool they used. They are asked to identify their most and least favorite features of the tools, and how they believe the tool affected their note-taking behavior.

Independent Variables

Note-taking Treatment

Paste: Students can only create notes by copy-pasting material from the learning content to their notepad. Students can select as much material as they like in any single pasting action.

Restricted Paste: Students can only create notes by copy-pasting material from the learning content to their notepad. Students are restricted to selecting 90% of the words of any single sentence they are selecting.

Typing: Students can only create notes by typing directly into their notepad.

Selection-Tool: Students can only create notes by choosing one of the 3 options made available when they select learning material.

Image of the Selection Tool
200

Highlighting: Students can create notes by actively highlighting course material. These highlights are seen with differently colored backgrounds, as would be the case with a physical highlighter.

Context/Mediating Variables on Student Characteristics

SAT Score: All students are asked to provide their SAT scores, as in previous studies SAT-Math was found to be an important covariate.

Pretest score: Prior to the learning material, students take a pre-test similar to the normal tests described above.

Preferences: In the survey, students are asked how they prefer to take notes in their regular student-life.

Hypotheses

1. 'Refinement': Restrictions on selections will increase the students' focus on the ideas being recorded, resulting in improved learning gains relative to unrestricted copy-paste.

2. 'Coordination': Viewing multiple versions of the same idea will require students to coordinate material, resulting in improved learning gains (less forgetting) relative to copy-paste.

Findings

NT-Exp3-Learn.gif

  • Learning: The two novel tools (bottom) showed significantly lower learning on all tests than did the standard tools(top two). The two novel tools (Selection and Restricted) were not significantly different from each other. The two standard tools (Copy-Paste and Typing) were not significantly different from each other). There was a significant overall effect for review (tests 2-3) across all conditions, but no significant effect for forgetting (tests 1 to 2).

NT-Exp3-Efficiency.gif

  • Efficiency: The Paste condition showed more efficient learning than all other tools on the immediate test (1) and review test (3). Efficiency is defined as learning difference between two subsequent tests divided by the time spend studying the materials.

NT-Exp3-Ideas.gif

  • Ideas Recorded: The Paste tool recorded significantly more total ideas than any other condition, and the same amount of key ideas as the typing condition. The Novel tools recorded significantly fewer key ideas than the standard conditions.
  • Wordiness: In line with previous experiments, when students recorded wordier ideas using copy-paste functionality, they performed worse on test items associated with the idea than when they recorded less wordy ideas.
  • Desirability: Students were significantly more dissatisfied with the selection tool than they were with any other tool. Most who used the restricted tool reported disliking the restrictions.

Explanation

  • The results of this experiment do not support our hyptheses, as the novel tools performed worse on learning outcomes than did the standard tools. However, this may be due to usability issues. The Selection tool was the most disliked tool, and users reported disliking the restrictions in the restrited-paste tool. In addition, note-taking behavior was suboptimal, as the novel conditions recorded fewer key ideas than did the standard tools. It may be that the design of the novel tools required more attention to the process of note-taking, rather than the product.
    • Lesson: More attention must be paid to the design of note-taking interventions, in order to ensure adoption by users.
  • When students are only allowed to copy-paste, they appear to learn as much as when they type. Contrary to previous results, they do not forget more over time. In contrast to the previous experiment, students in the copy-paste condition could not type. This may have increased their attention to the process of pasting. In addition, students in the copy-paste condition showed reduced time on task compared to typing.
    • Lesson: Copy-Paste may be a more efficient note-taking technique than typing.

Descendents

Note-Taking: Coordination

Further Information

References

  1. Kobayashi, K. (2005). What Limits the Encoding Effect of Note-Taking? A meta-analytic examination., Contemporary Educational Psychology, 30, 242-262
  2. Kobayashi, K. (2006). Combined Effects of Note-Taking/-Reviewing on Learning and the Enhancement Through Interventions: A meta-analytic review. (1986). Educational Psychology 26, 3 (2006) 459-477
  3. Peper, R.J., Mayer, R.E., Generative Effects of Note taking During Science Lectures. Journal of Educational Psychology 78, 1 34-38
  4. Wiley, J. (2001) Supporting understanding through task and browser design. Proceedings of the Twenty-third annual Conference of the Cognitive Science Society, (pp. 1136-1143). Hillsdale, NJ: Erlbaum.

The following is a reference to a conference paper regarding our earlier study contrasting handwriting, typing, and copy-paste.

Bauer, A., Koedinger, K. Pasting and Encoding: Note-taking in Online Courses. IEEE International Conference on Advanced Learning Technologies (ICALT 2006), 5-7 July, Kerkrade, Netherlands.

- Bauer, A., Koedinger. K.R., Selection-Based Note-Taking Applications, ACM Symposium on Human Factors in Computing Systems 2007, in submission