TinyGaze: Lightweight Gaze-Gesture Recognition on Commodity Mobile Devices
This work addresses the need for efficient on-device gaze-gesture recognition for hands-free mobile input, but results are preliminary due to small sample size and controlled setting.
The authors present a lightweight gaze-gesture recognition pipeline for mobile devices, achieving 0.960 Macro F1 for gesture recognition and 0.997 for user identification with only 46k parameters in a small pilot study.
Gaze gestures can provide hands free input on mobile devices, but practical use requires (i) gestures users can learn and recall and (ii) recognition models that are efficient enough for on-device deployment. We present an end-to-end pipeline using commodity ARKit head/eye transforms and a scaffolded guidance-to-recall protocol grounded in learning theory. In a pilot feasibility study (N=4 participants; 240 trials; controlled single-session setting), we benchmark a compact time-series model (TinyHAR) against deeper baselines (DeepConvLSTM, SA-HAR) on 5-way gesture recognition and 4-way user identification. TinyHAR achieves strong performance in this pilot benchmark (Macro F1 = 0.960 for gesture recognition; Macro F1 = 0.997 for user identification) while using only 46k parameters. A modality analysis further indicates that head pose dynamics are highly informative for mobile gaze gestures, highlighting embodied head--eye coordination as a key design consideration. Although the small sample size and controlled setting limit generalizability, these results indicate a potential direction for further investigation into on-device gaze gesture recognition.