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Publication Details
AFRICAN RESEARCH NEXUS
SHINING A SPOTLIGHT ON AFRICAN RESEARCH
mathematics
Utilizing Neutrosophic Logic in a Hybrid CNN-GRU Framework for Driver Drowsiness Level Detection with Dynamic Spatio-Temporal Analysis Based on Eye Aspect Ratio
International Journal of Neutrosophic Science, Volume 22, No. 2, Year 2023
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Description
Driver drowsiness has been identified as a major cause of roadway accidents globally. Efficiently determining the extent of drowsiness can greatly enhance preventive measures. This study proposes a novel approach, combining convolutional neural networks (CNN) and Gated Recurrent Units (GRU) to dynamically evaluate both the presence of drowsiness and its severity based on the Eye Aspect Ratio (EAR). By bridging spatial features extracted by CNNs with temporal sequences through GRU, our model offers a robust and real-time assessment of drowsiness levels, paving the way for enhanced safety measures in vehicular systems. Incorporating Neutrosophic Logic enables a more robust representation of uncertainty and ambiguity in the data and enhances the accuracy of driver drowsiness level detection within the Hybrid CNN-GRU framework. The model’s hybrid CNN-GRU structure combines CNN layers to extract spatial information from Human eye Images and GRU units to represent temporal correlations between frames. In-car cameras and sensors must be integrated to implement the suggested system in real-time and enable continuous driver behavior monitoring. The system alerts early warnings and takes action when drowsiness is detected, lowering the likelihood of accidents caused by weary drivers. The CNN-GRU hybrid architecture accurately detects fatigue during real-time driving. Performance metrics, including accuracy, recall, and F1-score, are provided for comparative research utilizing baseline models. Model behavior may be understood by visualizing tiredness detection and carefully examining false positives and negatives. The proposed CNN-GRU framework outperforms traditional methods such as SVM, KNN, and BPNN by achieving a significantly higher accuracy of 99.5%. It increases the recognition of driver tiredness by proposing a trustworthy and adaptable hybrid CNN-GRU deep learning system. This project is implemented in Python; it offers a practical and versatile solution for real-time driver drowsiness level detection. The proposed technology has the potential to dramatically increase traffic safety by sending out early warnings and taking steps to lessen the risks related to driver fatigue. © 2023, American Scientific Publishing Group (ASPG). All rights reserved.
Authors & Co-Authors
Abdellatif, Ahmed A.H.
Saudi Arabia, Buraidah
Al Qassim University
Nisar, Kottakkran Sooppy
Saudi Arabia, Al Kharj
Prince Sattam Bin Abdulaziz University
India, Hyderabad
Woxsen University
Munjam, Shankar Rao
India, Hyderabad
Woxsen University
el-Aziz, Rasha M.Abd
Saudi Arabia, Sakakah
Jouf University
Egypt, Asyut
Faculty of Computers and Information
Taloba, Ahmed I.
Saudi Arabia, Sakakah
Jouf University
Egypt, Asyut
Assiut University
Statistics
Authors: 5
Affiliations: 6
Identifiers
Doi:
10.54216/IJNS.220212
ISSN:
26926148
Research Areas
Health System And Policy