An Improved Helmet Detection Algorithm Based on YOLO V4

Int. J. Found. Comput. Sci. Pub Date : 2022-09-08 DOI:10.1142/s0129054122420205

Bin Yang, Jie Wang

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引用次数: 8

Abstract

The existing helmet detection algorithms have disadvantages such as difficulty in detecting occluded targets, small targets, etc. To address those problems, a YOLO V4-based helmet detection improvement algorithm has been proposed. Firstly, the model’s backbone structure is improved, and the backbone’s multi-scale feature extraction capability is enhanced by using MCM modules with different sized convolutional kernels, the FSM channel attention module is used to guide the model to dynamically focus on the channel features of extracted small targets and obscured target information. Secondly, in order to optimize the model training, the latest loss function Eiou is used to replace Ciou for anchor frame regression prediction to improve the convergence speed and regression accuracy of the model. Finally, a helmet dataset is constructed from this paper, and a K-means clustering algorithm is used to cluster the helmet dataset and select the appropriate a priori candidate frames. The experimental results show that the improved algorithm has a significant improvement in detection accuracy compared with the original YOLO V4 algorithm, and can have a positive detection effect on small targets and obscured targets.

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基于YOLO V4的改进头盔检测算法

现有的头盔检测算法存在检测遮挡目标困难、目标小等缺点。针对这些问题，提出了一种基于YOLO v4的头盔检测改进算法。首先，对模型的主干结构进行改进，利用不同大小卷积核的MCM模块增强主干的多尺度特征提取能力，利用FSM通道关注模块引导模型动态关注提取的小目标和被遮挡目标信息的通道特征;其次，为了优化模型训练，采用最新的损失函数Eiou代替Ciou进行锚框架回归预测，提高模型的收敛速度和回归精度;最后，本文构建了头盔数据集，并使用K-means聚类算法对头盔数据集进行聚类，选择合适的先验候选帧。实验结果表明，改进后的算法与原来的YOLO V4算法相比，检测精度有了显著提高，对小目标和遮挡目标都能起到积极的检测效果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Int. J. Found. Comput. Sci.

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