remm - yolo:一种新型轻量化汽车零部件目标检测算法

T. Yu, Lei Li, Xunlian Luo, Qiang Li
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引用次数: 0

摘要

在设备维护场景中,设备部件目标检测技术可以为维护人员提供技术支持,而基于深度学习的轻量化算法因具有特征提取能力强、延迟时间短等优点而备受关注。YOLOv7被认为是YOLO系列中的一种新算法,它提供了许多优化模块来提高目标检测能力。但是,YOLOv7存在计算量和参数量大、内存消耗严重、结构过度优化等问题。本文提出了一种基于YOLOv7的轻量级算法ReM-YOLO来改进网络结构。YOLOv7通过增加C3块、MobileOne块和Rep-DSC块进行改进,在保持高精度的同时减小模型尺寸,并采用非参数SimAM注意模块进一步提高检测精度。与YOLOv7相比,ReM-YOLO在精度和召回率方面有更好的提高,模型尺寸缩小了YOLOv7的1/3。在我们的汽车发动机部件数据集上进行了实验测试,准确率达到96.2%。改进后的算法有助于进一步的模型压缩实验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ReM-YOLO: A New Lightweight Vehicle Parts Target Detection Algorithm
In the scene of equipment maintenance, the equipment parts target detection technology can provide technical support for maintenance personnel, and lightweight algorithms based on deep learning have been much concerned, which have the advantages of strong feature extraction and short delay time. YOLOv7 is considered as a new algorithm in the YOLO series, which offers many optimized modules to improve target detection abilities. However, YOLOv7 has problems such as huge amount of computation and parameters, serious memory consumption, and the over-optimized structure. In this paper, a lightweight algorithm ReM-YOLO based on YOLOv7 is proposed to improve the network structure. YOLOv7 is improved by adding C3 blocks, MobileOne blocks and Rep-DSC blocks to reduce the model size while maintaining high precision, and a non-parameter SimAM attention module is employed to further improve the detection accuracy. Compared to YOLOv7, the ReM-YOLO has better improvements in precision and recall, and the model size is reduced by 1/3 size of YOLOv7. It has been observed that experimental tests are carried out on our dataset of vehicle engine components with the high accuracy rate of 96.2%. The improved algorithm helps further experiments about model compression effectively.
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