This paper introduces a groundbreaking approach to driver drowsiness detection using the AdaBoost algorithm, aiming to significantly improve road safety. Leveraging facial motion analysis, decision-level fusion, and feature scale consideration, our system achieves impressive accuracy rates of 94.86%, 88.15%, and 98.75%, respectively. Addressing the critical issue of driver drowsiness, a major contributor to road accidents, our solution harnesses the capabilities of machine learning and computer vision. By meticulously analyzing facial motion and incorporating decision-level fusion, our system exhibits robustness in identifying drowsiness cues. Furthermore, by accounting for feature scale variations, our model adapts effectively to diverse driver scenarios. These results underscore the AdaBoost algorithm’s potential in enhancing road safety through precise drowsiness detection. This research advocates for the integration of innovative algorithms into vehicular systems to mitigate the risks associated with driver drowsiness, ultimately contributing to a safer road environment and prioritizing driver well-being. The fusion of advanced technology with a focus on human-centric concerns represents a significant step towards reducing road accidents.
Enhancing Road Safety with AdaBoost-Based Drowsiness Detection for Drivers
Lect. Notes in Networks, Syst.
International Conference on Intelligent Computing & Optimization ; 2023 ; Phnom Penh, Cambodia October 27, 2023 - October 28, 2023
2024-12-13
10 pages
Article/Chapter (Book)
Electronic Resource
English
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