Abstract
The purpose of this study was to detect mind-wandering experienced by pre-service teachers during a video learning lecture on physics. The lecture was videotaped and consisted of a live lecture in a classroom. The lecture was about Gauss's law on physics. We investigated whether oculomotor data and eye movements could be used as a marker to indicate the learner’s mind-wandering. Each data was collected in a study in which 24 pre-service teachers (16 females and 8 males) reported mind-wandering experience through self-caught method while learning physics video lecture during 30 minutes. A Tobii Pro Spectrum (sampling rate: 300 Hz) was used to capture their eye-gaze during learning Gauss's law through a course video. After watching the video lecture, we interviewed pre-service teachers about their mind-wandering experience. We first used the self-caught method to capture the mind-wandering timing of pre-service teachers while learning from video lectures. We detected more accurate mind-wandering segments by comparing fixation duration and saccade count. We investigated two types of oculomotor data (blink count, pupil size) and nine eye movements (average peak velocity of saccades; maximum peak velocity of saccades; standard deviation of peak velocity of saccades; average amplitude of saccades; maximum amplitude of saccades; total amplitude of saccades; saccade count/s; fixation duration; fixation dispersion). The result was that the blink count could not be used as a marker for mind-wandering during learning video lectures among them (oculomotor data and eye movements), unlike previous literatures. Based on the results of this study, we identified elements that can be used as mind-wandering markers while learning from video lectures that are similar to real classes, among the oculomotor data and eye movement mentioned in previous literatures. Additionally, we found that most participants focused on past thoughts and felt unpleasant after experiencing mind-wandering through interview analysis.
Highlights
Recent years have witnessed a rapid increase in the use of online video lectures aimed both at young and adult learners [1]
The result was that the blink count could not be used as a marker for mind-wandering during learning video lectures among them, unlike previous literatures
Based on the results of this study, we identified elements that can be used as mind-wandering markers while learning from video lectures that are similar to real classes, among the oculomotor data and eye movement mentioned in previous literatures
Summary
Recent years have witnessed a rapid increase in the use of online video lectures aimed both at young and adult learners [1]. In the United States, more than 25% of students enrolled in institutions of higher learning register for online video lecture courses [2]. 84.3% of Korean high school students have experienced learning through the Education Broadcasting System online video lectures [3]. The proliferation of online video learning may be attributed to its numerous advantages over traditional classroom lectures. It is not affected by the barriers of time, place, and circumstances [4]. It is more cost-effective than traditional classroom-based learning [5] and reduces private education expenses [3]
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