Abstract
Driver distraction and fatigue are among the leading contributing factors in various fatal accidents. Driver activity monitoring can effectively reduce the number of roadway accidents. Besides the traditional methods that rely on camera or wearable devices, wireless technology for driver’s activity monitoring has emerged with remarkable attention. With substantial progress in WiFi-based device-free localization and activity recognition, radio-image features have achieved better recognition performance using the proficiency of image descriptors. The major drawback of image features is computational complexity, which increases exponentially, with the growth of irrelevant information in an image. It is still unresolved how to choose appropriate radio-image features to alleviate the expensive computational burden. This paper explores a computational efficient wireless technique that could recognize the attentive and inattentive status of a driver leveraging Channel State Information (CSI) of WiFi signals. In this novel research work, we demonstrate an efficient scheme to extract the representative features from the discriminant components of radio-images to reduce the computational cost with significant improvement in recognition accuracy. Specifically, we addressed the problem of the computational burden by efficacious use of Gabor filters with gray level statistical features. The presented low-cost solution requires neither sophisticated camera support to capture images nor any special hardware to carry with the user. This novel framework is evaluated in terms of activity recognition accuracy. To ensure the reliability of the suggested scheme, we analyzed the results by adopting different evaluation metrics. Experimental results show that the presented prototype outperforms the traditional methods with an average recognition accuracy of in promising application scenarios. This ubiquitous model leads to improve the system performance significantly for the diverse scale of applications. In the realm of intelligent vehicles and assisted driving systems, the proposed wireless solution can effectively characterize the driving maneuvers, primary tasks, driver distraction, and fatigue by exploiting radio-image descriptors.
Highlights
Driver’s safety is arguably a captivating task in fast-paced intelligent vehicles
Experimental results show that the presented prototype outperforms the traditional methods with an average recognition accuracy of 93.1% in promising application scenarios
This paper explores the potential and capability of Channel State Information (CSI) of the WiFi signal for driver’s activity monitoring with efficient computation of radio-images
Summary
Driver’s safety is arguably a captivating task in fast-paced intelligent vehicles. During the previous decades, a large number of traffic accidents are reported due to driver distraction or fatigue [1].Distraction reduce the driver’s perception and decision making capability by diverting his/her attention from the primary task of driving to secondary activities [2]. Driver’s safety is arguably a captivating task in fast-paced intelligent vehicles. A large number of traffic accidents are reported due to driver distraction or fatigue [1]. Distraction reduce the driver’s perception and decision making capability by diverting his/her attention from the primary task of driving to secondary activities [2]. In-vehicle entertainment systems (audio/video players) and gadgets (GPS and mobile communication) are among the leading causal factors of driver distraction [3,4]. A driver may be distracted because of engagement in eating/drinking, smoking or talking to the passengers during driving [5,6]. The challenging problem is how to measure the driver’s concentration on the essential task of driving
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