CLERA: A Unified Model for Joint Cognitive Load and Eye Region Analysis in the Wild
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Non-intrusive, real-time analysis of the dynamics of the eye region allows us to monitor humans' visual attention allocation and estimate their mental state during the performance of real-world tasks, which can potentially benefit a wide range of human-computer interaction (HCI) applications. While commercial eye-tracking devices have been frequently employed, the difficulty of customizing these devices places unnecessary constraints on the exploration of more efficient, end-to-end models of eye dynamics. In this work, we propose CLERA, a unified model for Cognitive Load and Eye Region Analysis, which achieves precise keypoint detection and spatiotemporal tracking in a joint-learning framework. Our method demonstrates significant efficiency and outperforms prior work on tasks including cognitive load estimation, eye landmark detection, and blink estimation. We also introduce a large-scale dataset of 30k human faces with joint pupil, eye-openness, and landmark annotation, which aims to support future HCI research on human factors and eye-related analysis.
Date issued
2023Department
AgeLab (Massachusetts Institute of Technology)Journal
ACM Transactions on Computer-Human Interaction
Publisher
ACM
Citation
Ding, Li, Terwilliger, Jack, Parab, Aishni, Wang, Meng, Fridman, Lex et al. 2023. "CLERA: A Unified Model for Joint Cognitive Load and Eye Region Analysis in the Wild." ACM Transactions on Computer-Human Interaction.
Version: Final published version
ISSN
1073-0516