2020
DOI: 10.3390/s20174833
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Using Machine Learning to Train a Wearable Device for Measuring Students’ Cognitive Load during Problem-Solving Activities Based on Electrodermal Activity, Body Temperature, and Heart Rate: Development of a Cognitive Load Tracker for Both Personal and Classroom Use

Abstract: Automated tracking of physical fitness has sparked a health revolution by allowing individuals to track their own physical activity and health in real time. This concept is beginning to be applied to tracking of cognitive load. It is well known that activity in the brain can be measured through changes in the body’s physiology, but current real-time measures tend to be unimodal and invasive. We therefore propose the concept of a wearable educational fitness (EduFit) tracker. We use machine learning with physio… Show more

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Cited by 35 publications
(34 citation statements)
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References 28 publications
(48 reference statements)
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“…While the term mental effort is often associated with cognitive load theory, in other areas of the literature it is common to encounter the term mental workload. These terms describe similar constructs [ 6 ] and in fields outside of education, mental workload is often measured through physiological means [ 21 ] since the autonomic nervous system responds to changes in mental workload, and these changes happen without the individual knowing the changes are occurring [ 22 ]. In relation to grain size of measurement, it is important to note that these measures are viewed as an index of workload [ 23 ], and perhaps should not be viewed as the exact amount of workload or mental effort.…”
Section: Literature Reviewmentioning
confidence: 99%
See 1 more Smart Citation
“…While the term mental effort is often associated with cognitive load theory, in other areas of the literature it is common to encounter the term mental workload. These terms describe similar constructs [ 6 ] and in fields outside of education, mental workload is often measured through physiological means [ 21 ] since the autonomic nervous system responds to changes in mental workload, and these changes happen without the individual knowing the changes are occurring [ 22 ]. In relation to grain size of measurement, it is important to note that these measures are viewed as an index of workload [ 23 ], and perhaps should not be viewed as the exact amount of workload or mental effort.…”
Section: Literature Reviewmentioning
confidence: 99%
“…To date, research around the use of wearable sensors for predicting learning-relevant outcomes has produced promising results. For example, researchers have found success using multi-modal physiological measures to differentiate between different activities and predict mental focus [ 6 ], as well as predicting perceived learning [ 7 ].…”
Section: Introductionmentioning
confidence: 99%
“…• This work addresses the limitations of a single modality using data fusion of non-intrusive biosensors and real-time biomarkers from HRV and pupillometry. Unlike other recent studies [2,3,12] that exploit the multimodality of biosensors, we used simple features (in terms of computation), but discriminant enough to detect the increase of the user's cognitive load/mental effort in real-time. • The use of machine learning and AI techniques to optimize the prediction of "when and where" the user is encountering difficulty on screen.…”
Section: Introductionmentioning
confidence: 99%
“…Detecting cognitive load in real-time using multimodal sources of biosensors has recently emerged as one of the promising approaches in adaptive and cognition-aware elearning [2,3,12,13]. Those very recent studies were mainly focusing on providing feedback on learners' engagement and cognitive load changes.…”
Section: Introductionmentioning
confidence: 99%
“…On the other hand, psychophysiological measures such as EEG (Antonenko et al, 2010) and eye‐tracking (Paas et al, 2003) data offer measures of cognitive load with higher spatial and temporal resolutions. There are also measures of heart rate, skin conductance, and body temperature, the sensors of which are wearable, and the data of which are predictive of cognitive load when used with predictive analytics (Romine et al, 2020). Psychophysiological measures can be tracked in real‐time, but they require obtrusive and often expensive devices for the measurements.…”
Section: Introductionmentioning
confidence: 99%