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Main Authors: Ortubay, Aimar Silvan, Parra, Lucas C., Madsen, Jens
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.13084
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author Ortubay, Aimar Silvan
Parra, Lucas C.
Madsen, Jens
author_facet Ortubay, Aimar Silvan
Parra, Lucas C.
Madsen, Jens
contents Students often drift in and out of focus during class. Effective teachers recognize this and re-engage them when necessary. With the shift to remote learning, teachers have lost the visual feedback needed to adapt to varying student engagement. We propose using readily available front-facing video to infer attention levels based on movements of the eyes, head, and face. We train a deep learning model to predict a measure of attention based on overt eye movements. Specifically, we measure Inter-Subject Correlation of eye movements in ten-second intervals while students watch the same educational videos. In 3 different experiments (N=83) we show that the trained model predicts this objective metric of attention on unseen data with $R^2$=0.38, and on unseen subjects with $R^2$=0.26-0.30. The deep network relies mostly on a student's eye movements, but to some extent also on movements of the brows, cheeks, and head. In contrast to Inter-Subject Correlation of the eyes, the model can estimate attentional engagement from individual students' movements without needing reference data from an attentive group. This enables a much broader set of online applications. The solution is lightweight and can operate on the client side, which mitigates some of the privacy concerns associated with online attention monitoring. GitHub implementation is available at https://github.com/asortubay/timeISC
format Preprint
id arxiv_https___arxiv_org_abs_2409_13084
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Real-time estimation of overt attention from dynamic features of the face using deep-learning
Ortubay, Aimar Silvan
Parra, Lucas C.
Madsen, Jens
Computer Vision and Pattern Recognition
Students often drift in and out of focus during class. Effective teachers recognize this and re-engage them when necessary. With the shift to remote learning, teachers have lost the visual feedback needed to adapt to varying student engagement. We propose using readily available front-facing video to infer attention levels based on movements of the eyes, head, and face. We train a deep learning model to predict a measure of attention based on overt eye movements. Specifically, we measure Inter-Subject Correlation of eye movements in ten-second intervals while students watch the same educational videos. In 3 different experiments (N=83) we show that the trained model predicts this objective metric of attention on unseen data with $R^2$=0.38, and on unseen subjects with $R^2$=0.26-0.30. The deep network relies mostly on a student's eye movements, but to some extent also on movements of the brows, cheeks, and head. In contrast to Inter-Subject Correlation of the eyes, the model can estimate attentional engagement from individual students' movements without needing reference data from an attentive group. This enables a much broader set of online applications. The solution is lightweight and can operate on the client side, which mitigates some of the privacy concerns associated with online attention monitoring. GitHub implementation is available at https://github.com/asortubay/timeISC
title Real-time estimation of overt attention from dynamic features of the face using deep-learning
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2409.13084