assessing eye-tracking technology for learning-style detection in adaptive game-based learning
DESCRIPTION
Assessing Eye-Tracking Technology for Learning-Style detection in Adaptive Game-Based Learning. Tracey J. Mehigan Ian Pitt IDEAS Research Group, Dept. of Computer Science, UCC. Introduction. Background Adaptive eLearning systems Learning-styles Felder-Silverman LSM FSILS Questionnaire - PowerPoint PPT PresentationTRANSCRIPT
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ASSESSING EYE-TRACKING TECHNOLOGY FOR LEARNING-STYLE DETECTION IN ADAPTIVE GAME-BASED LEARNING
Tracey J. MehiganIan Pitt
IDEAS Research Group,Dept. of Computer Science, UCC
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INTRODUCTION Background Adaptive eLearning systems
Learning-styles Felder-Silverman LSM
FSILS Questionnaire
Eye-tracking & eye-tracking technologies Detecting Global / Sequential learners Detecting Visual / Verbal learners
Potential for Mobile GBL Eye-tracking for GBL in mobile environments
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BACKGROUND
Measurement of learning-styles facilitates the provision of adaptive content to specific learner needs
Data traditionally gathered using questionnaires
Recently, user interaction with learning systems has proven a valuable method of data gathering for learning-styles
Eye-tracking technology could provide a better method of user data collection for learning-style analysis
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ADAPTIVE LEARNING SYSTEMS
User interaction with learning systems has proven a valuable method of data gathering for learning-styles
A number of studies in recent years have looked at the inference of learning-styles using the Felder-Silverman model Bayesian Networks (García et al) Behaviour Patterns (Graf and Kinshuk) Feed Forward Neural Networks (Villaverde et al) Mouse movement patterns (Spada et al) Accelerometer Interaction (Mehigan et al)
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LEARNING-STYLES & PERSONALITY MODELS
One of the most analysed cognitive features in the development of adaptive systems in eLearning environments
Learning-style models classify students according to where they fit on a number of scales depending upon how they process and receive information
Learning Style & Personality ModelsMyer-Briggs Model The Big Five Model
Felder-Silverman LSM
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FELDER-SILVERMAN LSM
The Felder-Silverman Learning-Style Model (Felder & Silverman 1988) is a widely employed model for inferring individual learning-styles
Based on four learning dimensions:
Active /ReflectiveSensitive /IntuitiveGlobal / SequentialVisual / Verbal
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LEARNING STYLES QUESTIONNAIRE HTTP://WWW.ENGR.NCSU.EDU/LEARNINGSTYLES/ILSWEB.HTML
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EYE –TRACKING
“Eye-tracking works by reflecting invisible infrared light onto an eye, recording the reflection pattern with a sensor system, and then calculating the exact point of gaze using a geometrical model. Once the point of gaze is determined, it can be visualized and shown on a computer monitor”
(Tobii.com)
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EYE-TRACKING RESEARCH Eye tracking technology is widely used in many disciplines
Commerce, learning difficulties, etc.
Studies have been conducted based on HCI, visual cognition and web accessibility
Research has explored saccade velocity, blink rate and the degree of eyelid openness for determination of user’s tiredness level
This can complement other information gained by the system through user behavioural patterns
Few examples of eye-tracking-based work in eLearning and subsequently, game based learning
However, researchers at a UK university are developing computer games which can be controlled by eye movements
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TOBII EYE-TRACKING TECHNOLOGY
Calibrate for the user’s vision
System records the user’s eye movements while s/he observes the test scene(s)
Analyse the data on individual and / or group level
Gaze plotsHeat maps Statistics
Can be based on Areas of Interest (AOI’s)
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DETECTING GLOBAL / SEQUENTIAL LEARNERS
Sequential learners would show a slower vertical speed of eye movement between fixation points and a longer focus time than their Global counterparts
10 Participants selected from Dept of Computer Science UCC – reflecting a balanced sample of Global and Sequential learners
2 Screens Presented to the User A Learning Screen A Task Screen
To ensure that the user gaze is following the screen content and not the cursor arrow the mouse is only used to move between screens.
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GLOBAL & SEQUENTIAL LEARNERSGAZE PATTERNS & HEAT MAPS
Global Sequential
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DETECTING VISUAL & VERBAL LEARNERS Visual learners (as defined in terms of the Felder-
Silverman LSM) will exhibit longer total time (fixation) duration on visual learning content (images/graphics)
Verbal learners will exhibit longer total time (fixation) duration on textual learning content
10 Participants selected from Dept of Computer Science UCC – reflecting a balanced sample of Visual and Verbal learners
2 Screens Presented to the User A learning screen A task screen
To ensure that the user gaze is following the screen content and not the cursor arrow the mouse is only used to move between screens.
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VISUAL & VERBAL LEARNERSGAZE PATTERNS & HEAT MAPS
Visual Verbal
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Mobile learning decreases limitation of traditional learning systems through the mobility of portable devices
The incorporation of mobile devices provides an opportunity for ubiquity and collaboration in education
The importance of the mobile phone to teenage identity and the development of social friendship networks facilitates incorporation of mLearning
Mobile devices could be used to encourage young people to learn in a beneficial way
MOBILE LEARNING
MOBILE GBL Mobile learning decreases limitation of learning location with the mobility of general portable devices
Mobile GBL is usually Situated and Ubiquitous
“We see a potential move away from immersive, game based learning, represented in traditional eLearning simulation systems, toward the advancement of situated mLearning environments” (Dede)
Game based learning can also improve learning in specialist areas where students become engaged in a situated learning environment which occurs within the game (Williamson et al )
Mobile GBL can also be incorporated in blended and other learning environments
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EYE-TRACKING FOR MOBILE GBL
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Potential to track user learning-styles through avatar movement via eye-based interaction
The provision of adaptive systems based on the Felder-Silverman model could potentially offer students increased motivation to learn through personalised content
Felder-Silverman’s model provides matching teaching-styles to each learning-styles and therefore content can be specifically tailored to the needs of each individual learner
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EYE-TRACKING MOBILE GBL ENVIRONMENTS
Eye-trackers are becoming smaller and less cumbersome, potentially offering a new method of mobile device interaction
Recently ‘Gaze Gesturing’ has emerged as a means of controlling device interaction (Drewes et al)
Tobii ‘Glasses’ offer the next generation of mobile eye-tracker
Recent work conducted by Miluzzo et al facilitates the use of forward facing mobile device cameras for eye-tracing purposes
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CONCLUSION Background Adaptive eLearning systems
Learning-styles Felder-Silverman LSM
FSILS Questionnaire
Eye-tracking & eye-tracking technologies Detecting Global / Sequential learners Detecting Visual / Verbal learners
Potential for Mobile GBL Eye-tracking for GBL in mobile environments
QUESTIONS??
COMMENTS!!
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