This paper presents a robust, occlusion-aware driver monitoring system (DMS) utilizing the Driver Monitoring Dataset (DMD). The system performs driver identification, gaze estimation by regions, and face occlusion detection under varying lighting conditions, including challenging low-light scenarios. Aligned with EuroNCAP recommendations, the inclusion of occlusion detection enhances situational awareness and system trustworthiness by indicating when the system's performance may be degraded. The system employs separate algorithms trained on RGB and infrared (IR) images to ensure reliable functioning. We detail the development and integration of these algorithms into a cohesive pipeline, addressing the challenges of working with different sensors and real-car implementation. Evaluation on the DMD and in real-world scenarios demonstrates the effectiveness of the proposed system, highlighting the superior performance of RGB-based models and the pioneering contribution of robust occlusion detection in DMS.
View on arXiv@article{cañas2025_2504.20677,
title={ Occlusion-aware Driver Monitoring System using the Driver Monitoring Dataset },
author={ Paola Natalia Cañas and Alexander Diez and David Galvañ and Marcos Nieto and Igor Rodríguez },
journal={arXiv preprint arXiv:2504.20677},
year={ 2025 }
}