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引用次数: 0
摘要
疲劳驾驶是威胁道路交通安全的主要原因之一。针对目前驾驶员疲劳检测算法中存在的检测过程复杂、准确率低、易受光线干扰等问题,本文提出了一种基于 YOLO 的驾驶员眼部状态检测算法,简称 ES-YOLO。该算法优化了 YOLOv7 的结构,利用卷积块注意力机制(CBAM)整合了多尺度特征,提高了对图像中重要空间位置的注意力。此外,使用 Focal-EIOU Loss 代替 CIOU Loss 来提高对困难样本的关注度,减少样本类别不平衡的影响。然后,基于 ES-YOLO 提出了一种驾驶员疲劳检测方法,并设计了驾驶员疲劳判断逻辑,实时监测疲劳状态并及时报警,提高了检测的准确性。在公共数据集CEW和自建数据集上的实验表明,所提出的ES-YOLO分别获得了99.0%和98.8%的mAP值,优于对比算法。该方法实现了对驾驶员疲劳状态的实时、准确检测。源代码发布于 https://www.github/driver-fatigue-detection.git。
Fatigue driving is one of the main reasons threatening road traffic safety. Aiming at the problems of complex detection process, low accuracy, and susceptibility to light interference in the current driver fatigue detection algorithm, this paper proposes a driver Eye State detection algorithm based on YOLO, abbreviated as ES-YOLO. The algorithm optimizes the structure of YOLOv7, integrates the multi-scale features using the convolutional block attention mechanism (CBAM), and improves the attention to important spatial locations in the image. Furthermore, using the Focal-EIOU Loss instead of CIOU Loss to increase the attention on difficult samples and reduce the influence of sample class imbalance. Then, based on ES-YOLO, a driver fatigue detection method is proposed, and the driver fatigue judgment logic is designed to monitor the fatigue state in real-time and alarm in time to improve the accuracy of detection. The experiments on the public dataset CEW and the self-made dataset show that the proposed ES-YOLO obtained 99.0% and 98.8% mAP values, respectively, which are better than the compared algorithms. And this method achieves real-time and accurate detection of driver fatigue status. Source code is released in https://www.github/driver-fatigue-detection.git.
期刊介绍:
Due to rapid advancements in integrated circuit technology, the rich theoretical results that have been developed by the image and video processing research community are now being increasingly applied in practical systems to solve real-world image and video processing problems. Such systems involve constraints placed not only on their size, cost, and power consumption, but also on the timeliness of the image data processed.
Examples of such systems are mobile phones, digital still/video/cell-phone cameras, portable media players, personal digital assistants, high-definition television, video surveillance systems, industrial visual inspection systems, medical imaging devices, vision-guided autonomous robots, spectral imaging systems, and many other real-time embedded systems. In these real-time systems, strict timing requirements demand that results are available within a certain interval of time as imposed by the application.
It is often the case that an image processing algorithm is developed and proven theoretically sound, presumably with a specific application in mind, but its practical applications and the detailed steps, methodology, and trade-off analysis required to achieve its real-time performance are not fully explored, leaving these critical and usually non-trivial issues for those wishing to employ the algorithm in a real-time system.
The Journal of Real-Time Image Processing is intended to bridge the gap between the theory and practice of image processing, serving the greater community of researchers, practicing engineers, and industrial professionals who deal with designing, implementing or utilizing image processing systems which must satisfy real-time design constraints.
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