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Reappraising Cognitive Styles in Adaptive Web Applications

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Wilks' Lambda=0.98, partial eta squared=0.01 ... Wilks' Lambda=0.99, partial eta squared=0.01. H3: one type of learning style is more beneficial ... – PowerPoint PPT presentation

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Title: Reappraising Cognitive Styles in Adaptive Web Applications


1
Reappraising Cognitive Styles in Adaptive Web
Applications
  • Liz Brown, Tim Brailsford, Tony Fisher, Adam
    Moore Helen Ashman

2
Introduction
  • Evolution of web applications
  • Personalisation mechanisms
  • Cognitive styles for user profiling
  • Case study student revision guide
  • Findings of study
  • Conclusions and discussion

3
Evolution of web applications
  • Shift of web sites
  • Widespread use of web applications with underused
    potential for individualisation
  • The power of personalisation

static information repositories
dynamic applications
Hello Bob! Welcome back. Find out about our
25 off sale
Web server
Database
4
Cognitive styles in educational web applications
  • Cognitive style is a psychological construct
  • Most web sites modelled on either informational
    or navigational concepts
  • Cognitive styles can be used to inform either of
    these to provide personalisation for the user

5
Cognitive styles and learning
  • Cognitive styles vs learning styles
  • Types of styles
  • Field dependence vs field independence
  • Visual/imager vs verbal
  • Global vs sequential
  • Reflector/reflective vs activist/impulsive
  • Convergers vs divergers
  • Tactile/kinaesthetic
  • Which is best and how should it be used?

6
Experimental study
  • User trials carried out with an online revision
    guide for a taught module
  • Over 200 university students involved
  • Used a visual-verbal approach, investigating 2
    variables
  • Visual and verbal environments
  • Visual-verbal learning style of students
  • Feedback/evaluation via assessment data,
    questionnaires, interviews and log files

7
WHURLE revision guide system architecture


8
Learning styles in WHURLE
  • Lesson plan produced for visual, verbal and no
    preference users
  • Chunks created mix of visual, verbal, no
    preference or universal
  • Students filled in a learning styles
    questionnaire during first log-in
  • Users then randomly assigned to matched group,
    mismatched group or neutral group

9
Student information
  • Mostly 2nd/3rd year undergraduates
  • Average age was 21, gender ratio of 3.6 males1
    female
  • Out of 221 students who logged on at least once
  • 105 were visual
  • 105 were bimodal (no preference)
  • 11 were verbal

10
Screenshots
Verbal environment
Visual environment
No preference environment
11
What were we investigating?
  • To see if matching or mismatching would make a
    difference
  • To see if there were any differences between
    students with different learning styles
  • To see if there were any differences between
    students who used the different environments

12
Main findings of the study
  • Matching or mismatching made no difference to
    student performance
  • No difference between students with different
    learning styles
  • No difference between students who used the
    different environments

13
Statistical results
14
Secondary findings
  • No correlation between amount of use of the
    system and student performance
  • Qualitative data suggests students found it an
    enjoyable and useful resource
  • All students interviewed agreed that
    personalisation was important

15
Conclusions
  • Personalising for visual-verbal learning style
    does not seem to have much educational benefit
  • However, many students studying for Computer
    Science degrees seem to be visual learners
  • Students feel that personalisation in web-based
    learning is important

16
Discussion - 1
  • Were we using suitable test subjects?
  • Are learning styles static or dynamic?
  • and should the system cater for this?
  • Cognitive processing and dual encoding

17
Discussion - 2
  • What constitutes a truly "visual" representation
    of information?
  • Are learning styles important?
  • or were we not using the "right one"?
  • Is one learning style better than another?

18
Discussion - 3
  • What more needs to be done with learning styles
    and adaptive web-based education?
  • Should we be looking at other methods of
    personalisation for web-based education?

19
The next phase
  • User trials with primary school children (aged
    7-10)
  • Investigations into other learning styles
  • More discussion needed about adaptation and user
    control, and matching/mismatching

20
Acknowledgements
  • Many thanks to Dr Shaaron Ainsworth (School of
    Psychology) and members of the Web Technologies
    Lab in the School of Computer Science IT for
    all their help and support
  • Also to the students who participated in the
    study and subsequent evaluations
  • This research is supported by a PhD scholarship
    from the University of Nottingham
  • ejb_at_cs.nott.ac.uk
  • www.cs.nott.ac.uk/ejb
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