基于改进YOLOv5n的轻量化海产生物目标检测  

作　　者：张翔 张俊虎[1] 李海涛[1] 李辉[1] ZHANG Xiang;ZHANG Junhu;LI Haitao;LI Hui(College of Information Science and Technology,Qingdao University of Science and Technology,Qingdao 266061,Shangdong,China)

机构地区：[1]青岛科技大学信息科学与技术学院,山东青岛266061

出　　处：《渔业现代化》2024年第3期89-97,共9页Fishery Modernization

基　　金：国家自然科学基金(61702295);青岛市海洋科技创新专项(22-3-3-hygg-hy)。

摘　　要：对于海产生物科考与捕捞等行业,在海上远洋的船只在利用水下机器人进行海产生物的捕捞与识别时,由于通信带宽受限,计算资源有限,而采用轻量化网络模型可以更好地适应这样的条件。为此,提出了一种改进YOLOv5n的海产生物目标检测模型。首先,引入高效的轻量化卷积模块(Group Shuffle Convolution,Gsconv),对模型主体进行缩减;然后改进损失函数,引用α-giou损失函数进行优化,提升预测框回归精度;再引L1-norm正则化剪枝,裁剪不必要的通道以及相关的卷积核;最后采用L2知识蒸馏,将模型精度调整到接近剪枝前的水平。结果显示,与原有基线模型YOLOv5n相比,改进后的模型计算量下降了53%,参数量下降了51%。所提出的改进算法在保持模型性能的同时保证了轻量化处理的有效性。In marine biology research and fishing industries,ships using underwater robots to capture and identify marine organisms may face limited communication bandwidth and computing resources,making lightweight network models better suited for such conditions.To address this issue,a modified YOLOv5n model for marine organism detection was proposed,incorporating improvements in the neck network,model pruning,and knowledge distillation techniques.The model size was effectively reduced by leveraging the Gsconv lightweight convolution module to replace standard convolutions in the YOLOv5n Neck section.A novelα-giou loss function was adopted to enhance bounding box regression accuracy.Based on weight coefficients,L1-norm regularization pruning was applied to eliminate unnecessary channels and associated convolutional kernels.Finally,retraining and L2 knowledge distillation were employed to fine-tune the model accuracy close to pre-pruning levels.Experimental results demonstrated a 53%reduction in computational load and a 51%decrease in parameters compared to the original YOLOv5n baseline network.The proposed algorithm ensures the effectiveness.

关 键 词：海产生物目标检测 YOLOv5n Gsconv 模型剪枝 知识蒸馏 

分 类 号：P714.5[天文地球—海洋科学]