期刊
IEEE ACCESS
卷 11, 期 -, 页码 32996-33004出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/ACCESS.2023.3263727
关键词
Neural networks; Feature extraction; Accelerometers; Accidents; Road traffic; Monitoring; Data acquisition; Deep learning; Tires; Classification; deep neural network; intelligent tire; tire condition monitoring; tire tread wear
In this study, a tire tread wear detection system is proposed that utilizes machine learning to accurately detect tire wear under real-road driving conditions. The proposed system includes an intelligent tire, a preprocessing component, and a detection component, and achieves an accuracy of 95.51% in real-road driving conditions.
The accurate detection of tire tread wear plays an important role in preventing tire-related accidents. In previous studies, tire wear detection is performed by interpreting mathematical models and tire characteristics. However, this approach may not accurately reflect the real driving environment. In this study, we propose a tire tread wear detection system that utilizes machine learning to provide accurate results under real-road driving conditions. The proposed system comprises: 1) an intelligent tire that samples the measured acceleration signals and processes them in a dataset; 2) a preprocessing component that extracts features from the collected data according to the degree of wear; and 3) a detection component that uses a deep neural network to classify the degree of wear. To implement the proposed system in a vehicle, we designed an acceleration-based intelligent tire that can transmit data over wireless networks. At speeds between 30 and 80 km/h, the proposed system was experimentally demonstrated to achieve an accuracy of 95.51% for detecting tire tread wear under real-road driving conditions. Moreover, this system uses only preprocessed acceleration signals and machine-learning algorithms, without requiring complex physical models and numerical analyses.
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