Camera-based implicit mind reading by capturing higher-order semantic dynamics of human gaze within environmental context

TL;DR

This paper introduces a novel, unobtrusive camera-based method that analyzes the dynamic relationship between gaze patterns and environmental context to recognize emotions in real-time without user awareness.

Contribution

It presents a new approach combining gaze dynamics and environmental semantics for implicit emotion recognition using standard cameras, avoiding specialized sensors.

Findings

Effective real-time emotion recognition without user awareness

Captures complex gaze-environment interactions revealing implicit emotions

High generalizability with low deployment cost

Abstract

Emotion recognition,as a step toward mind reading,seeks to infer internal states from external cues.Most existing methods rely on explicit signals-such as facial expressions,speech,or gestures-that reflect only bodily responses and overlook the influence of environmental context.These cues are often voluntary,easy to mask,and insufficient for capturing deeper,implicit emotions. Physiological signal-based approaches offer more direct access to internal states but require complex sensors that compromise natural behavior and limit scalability.Gaze-based methods typically rely on static fixation analysis and fail to capture the rich,dynamic interactions between gaze and the environment,and thus cannot uncover the deep connection between emotion and implicit behavior.To address these limitations,we propose a novel camera-based,user-unaware emotion recognition approach that integrates gaze fixation patterns with environmental semantics and temporal dynamics.Leveraging standard HD cameras,our method unobtrusively captures users'eye appearance and head movements in natural settings-without the need for specialized hardware or active user participation.From these visual cues,the system estimates gaze trajectories over time and space, providing the basis for modeling the spatial, semantic,and temporal dimensions of gaze behavior. This allows us to capture the dynamic interplay between visual attention and the surrounding environment,revealing that emotions are not merely physiological responses but complex outcomes of human-environment interactions.The proposed approach enables user-unaware,real-time,and continuous emotion recognition,offering high generalizability and low deployment cost.