Real-Time Fire Detection Method Based on Computer Vision for Electric Vehicle Charging Safety Monitoring

Yuchen Gao, Qing Yang, Shiyu Zhang, D. Gao
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Abstract

In the process of charging and using electric vehicles, lithium battery may cause hazards such as fire or even explosion due to thermal runaway. Therefore, a target detection model based on the improved YOLOv5 (You Only Look Once) algorithm is proposed for the features generated by lithium battery combustion, using the K-means algorithm to cluster and analyse the target locations within the dataset, while adjusting the residual structure and the number of convolutional kernels in the network and embedding a convolutional block attention module (CBAM) to improve the detection accuracy without affecting the detection speed. The experimental results show that the improved algorithm has an overall mAP evaluation index of 94.09%, an average F1 value of 90.00%, and a real-time detection FPS (frames per second) of 42.09, which can meet certain real-time monitoring requirements and can be deployed in various electric vehicle charging stations and production platforms for safety detection and will provide a guarantee for the safe production and development of electric vehicles in the future.
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基于计算机视觉的电动汽车充电安全实时火灾检测方法
电动汽车在充电和使用过程中,锂电池可能会因热失控而引发火灾甚至爆炸等危险。因此,针对锂电池燃烧产生的特征,提出了一种基于改进的YOLOv5 (You Only Look Once)算法的目标检测模型,使用K-means算法对数据集中的目标位置进行聚类和分析,同时调整网络中的残差结构和卷积核数,并嵌入卷积块注意模块(CBAM),在不影响检测速度的前提下提高检测精度。实验结果表明,改进后的算法mAP总体评价指标为94.09%,平均F1值为90.00%,实时检测FPS(帧/秒)为42.09,能够满足一定的实时监控要求,可部署在各类电动汽车充电站和生产平台进行安全检测,将为未来电动汽车的安全生产和发展提供保障。
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