焊接
电池(电)
汽车工程
电流(流体)
能量(信号处理)
计算机科学
电气工程
算法
工程类
机械工程
功率(物理)
数学
物理
统计
量子力学
作者
Lei Yuan,Yanrong Chen,Hai Tang,Ren Gao,Wenhuan Wu
出处
期刊:IEEE Sensors Journal
[Institute of Electrical and Electronics Engineers]
日期:2024-07-01
卷期号:24 (13): 21655-21668
标识
DOI:10.1109/jsen.2024.3398769
摘要
The future direction of global automotive development is electrification, and the battery current collector is an essential component of new energy vehicle batteries. However, the welding defects in the battery current collector during the welding process are characterized by a disorganized distribution, extensive size variations, multiple types, and ambiguous features, posing challenges for detecting welding defects in the current collector. This paper proposes a lightweight deep-learning algorithm called MGNet for detecting welding defects in the current collectors. We introduce a lightweight MDM module based on multi-scale channels, which utilizes deep dynamic convolutions as its basic structure to extract compelling features while reducing computational complexity. We also propose a lightweight feature fusion network called GS_GFPN, which fully leverages the semantic information of the backbone network feature maps while reducing parameter redundancy and maintaining detection accuracy. Experimental evaluations on both the BCC (battery current collector) surface defect database and the publicly available NEU (Northeastern University) surface defect database demonstrate that MGNet outperforms existing methods with significant improvements in detection accuracy. The mean average precision (mAP) at IoU threshold 0.5 is 93.9% and 78.0%, respectively, with Frames Per Second (FPS) of 212.8 and 238.1 and a model weights of only 3.1M. Moreover, the algorithm is successfully deployed on the NVIDIA Jetson Nano embedded device, enabling real-time defect detection for practical industrial applications.
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