An Intelligent Driving Monitoring System Utilizing Pedal Motion Sensor Integrated with Triboelectric‐Electromagnetic Hybrid Generator and Machine Learning

Driver's driving behavior and driving style have a crucial impact on traffic safety, capacity, and efficiency, so it is of great significance to monitor the driver's driving behavior and recognize their driving style. In this work, an intelligent driving monitoring system based on a triboe...

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Bibliographic Details
Published in:Advanced materials technologies 2024-04, Vol.9 (7), p.n/a
Main Authors: Lu, Xiaohui, Leng, Baichuan, Li, Hengyu, Lv, Xinzhan, Zhang, Xiaosong, Qu, Ting, Li, Shaosong, Wang, Yingting, Wen, Jianming, Zhang, Bangcheng, Cheng, Tinghai
Format: Article
Language:English
Subjects:
driving behavior and style
machine learning
multi‐parameter monitoring
self‐powered pedal sensing
triboelectric nanogenerator
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Summary:Driver's driving behavior and driving style have a crucial impact on traffic safety, capacity, and efficiency, so it is of great significance to monitor the driver's driving behavior and recognize their driving style. In this work, an intelligent driving monitoring system based on a triboelectric nanogenerator and electromagnetic generator is designed. The system consists of a self‐powered pedal motion sensor (SPMS) and an intelligent data processing unit (IDPU), which can monitor driving behavior and recognize driving style. SPMS is used for driving behavior monitoring, which mainly consists of a six‐phase triboelectric nanogenerator (S‐TENG) and a free‐rotating disk electromagnetic generator (FD‐EMG). S‐TENG can recognize information such as pedal movement direction, movement amplitude, and movement speed, and FD‐EMG can realize the function of a self‐powered driver's driving behavior warning. The IDPU includes a numerical calculation system for driving style characteristic variables and a driving style classifier. It can recognize the driving style based on the driving data collected by SPMS. The driving style classifier design is based on a combination of simulated driving experiments and machine learning techniques, and its accuracy is verified through experiments. This work has important potential applications in the field of traffic safety and intelligent driving. This work presents an intelligent driving monitoring system based on a triboelectric‐electromagnetic hybrid generator. The system consists of a self‐powered pedal motion sensor and an intelligent data processing unit, which can realize driving behavior monitoring and driving style recognition functions. This work holds great potential for traffic safety and intelligent driving applications.
ISSN:2365-709X
2365-709X
DOI:10.1002/admt.202301706