Drone or unmanned aerial vehicle(UAV)technology has undergone significant changes.The technology allows UAV to carry out a wide range of tasks with an increasing level of sophistication,since drones can cover a large ...Drone or unmanned aerial vehicle(UAV)technology has undergone significant changes.The technology allows UAV to carry out a wide range of tasks with an increasing level of sophistication,since drones can cover a large area with cameras.Meanwhile,the increasing number of computer vision applications utilizing deep learning provides a unique insight into such applications.The primary target in UAV-based detection applications is humans,yet aerial recordings are not included in the massive datasets used to train object detectors,which makes it necessary to gather the model data from such platforms.You only look once(YOLO)version 4,RetinaNet,faster region-based convolutional neural network(R-CNN),and cascade R-CNN are several well-known detectors that have been studied in the past using a variety of datasets to replicate rescue scenes.Here,we used the search and rescue(SAR)dataset to train the you only look once version 5(YOLOv5)algorithm to validate its speed,accuracy,and low false detection rate.In comparison to YOLOv4 and R-CNN,the highest mean average accuracy of 96.9%is obtained by YOLOv5.For comparison,experimental findings utilizing the SAR and the human rescue imaging database on land(HERIDAL)datasets are presented.The results show that the YOLOv5-based approach is the most successful human detection model for SAR missions.展开更多
针对现有X光安检图像中违禁物品检测精度低的问题,基于YOLOv5s(you only look once version 5 small)提出了一种改进的违禁物品检测算法。利用重参数思想设计了一种Rep模块以协助YOLOv5s主干网络提取更多特征信息,在不增加推理时间的基...针对现有X光安检图像中违禁物品检测精度低的问题,基于YOLOv5s(you only look once version 5 small)提出了一种改进的违禁物品检测算法。利用重参数思想设计了一种Rep模块以协助YOLOv5s主干网络提取更多特征信息,在不增加推理时间的基础上提高算法检测精度。同时,在YOLOv5s颈部的路径聚合网络中插入2个通道注意力机制压缩-激励模块,加强通道间的相关性,提高整体网络的检测效果。在SIXray数据集上的实验结果表明,在不增加检测时间的基础上,改进的YOLOv5s算法比原始算法在平均精度均值(mAP)、宏精确率(macro precision)、宏召回率(macro recall)和宏F1(macro-F1)这4个评价指标上分别提升了2.6、2.0、4.0和3.0个百分点。展开更多
Electricity plays a vital role in daily life and economic development.The status of the indicator lights of the power plant needs to be checked regularly to ensure the normal supply of electricity.Aiming at the proble...Electricity plays a vital role in daily life and economic development.The status of the indicator lights of the power plant needs to be checked regularly to ensure the normal supply of electricity.Aiming at the problem of a large amount of data and different sizes of indicator light detection,we propose an improved You Only Look Once vision 5(YOLOv5)power plant indicator light detection algorithm.The algorithm improves the feature extraction ability based on YOLOv5s.First,our algorithm enhances the ability of the network to perceive small objects by combining attention modules for multi-scale feature extraction.Second,we adjust the loss function to ensure the stability of the object frame during the regression process and improve the conver-gence accuracy.Finally,transfer learning is used to augment the dataset to improve the robustness of the algorithm.The experimental results show that the average accuracy of the proposed squeeze-and-excitation YOLOv5s(SE-YOLOv5s)algorithm is increased by 4.39%to 95.31%compared with the YOLOv5s algorithm.The proposed algorithm can better meet the engineering needs of power plant indicator light detection.展开更多
针对无人机航拍图像目标检测中视野变化大、时空信息复杂等问题,文中基于YOLOv5(You Only Look Once Version5)架构,提出基于图像低维特征融合的航拍小目标检测模型.引入CA(Coordinate Attention),改进MobileNetV3的反转残差块,增加图...针对无人机航拍图像目标检测中视野变化大、时空信息复杂等问题,文中基于YOLOv5(You Only Look Once Version5)架构,提出基于图像低维特征融合的航拍小目标检测模型.引入CA(Coordinate Attention),改进MobileNetV3的反转残差块,增加图像空间维度信息的同时降低模型参数量.改进YOLOv5特征金字塔网络结构,融合浅层网络中的特征图,增加模型对图像低维有效信息的表达能力,进而提升小目标检测精度.同时为了降低航拍图像中复杂背景带来的干扰,引入无参平均注意力模块,同时关注图像的空间注意力与通道注意力;引入VariFocal Loss,降低负样本在训练过程中的权重占比.在VisDrone数据集上的实验验证文中模型的有效性,该模型在有效提升检测精度的同时明显降低复杂度.展开更多
针对使用传统方法识别评估滑雪运动员的训练动作存在人为主观、准确率低等问题,提出了一种基于改进OpenPose和YOLOv5(You Only Look Once version 5)的动作分析算法。利用CSP-Darknet53(Cross Stage Paritial-Network 53)作为OpenPose...针对使用传统方法识别评估滑雪运动员的训练动作存在人为主观、准确率低等问题,提出了一种基于改进OpenPose和YOLOv5(You Only Look Once version 5)的动作分析算法。利用CSP-Darknet53(Cross Stage Paritial-Network 53)作为OpenPose外部网络将输入图片降维处理并提取特征图。融合优化YOLOv5算法,提取人体骨骼关键点构成人体骨架与标准动作进行对比,根据角度信息评分,并在模型中加入损失函数,量化实际检测动作与标准动作的误差。该模型可对运动员动作即时监控,能完成初步的动作评估。实验结果表明,检测识别准确率达到95%,可满足日常滑雪训练需求。展开更多
文摘Drone or unmanned aerial vehicle(UAV)technology has undergone significant changes.The technology allows UAV to carry out a wide range of tasks with an increasing level of sophistication,since drones can cover a large area with cameras.Meanwhile,the increasing number of computer vision applications utilizing deep learning provides a unique insight into such applications.The primary target in UAV-based detection applications is humans,yet aerial recordings are not included in the massive datasets used to train object detectors,which makes it necessary to gather the model data from such platforms.You only look once(YOLO)version 4,RetinaNet,faster region-based convolutional neural network(R-CNN),and cascade R-CNN are several well-known detectors that have been studied in the past using a variety of datasets to replicate rescue scenes.Here,we used the search and rescue(SAR)dataset to train the you only look once version 5(YOLOv5)algorithm to validate its speed,accuracy,and low false detection rate.In comparison to YOLOv4 and R-CNN,the highest mean average accuracy of 96.9%is obtained by YOLOv5.For comparison,experimental findings utilizing the SAR and the human rescue imaging database on land(HERIDAL)datasets are presented.The results show that the YOLOv5-based approach is the most successful human detection model for SAR missions.
文摘针对现有X光安检图像中违禁物品检测精度低的问题,基于YOLOv5s(you only look once version 5 small)提出了一种改进的违禁物品检测算法。利用重参数思想设计了一种Rep模块以协助YOLOv5s主干网络提取更多特征信息,在不增加推理时间的基础上提高算法检测精度。同时,在YOLOv5s颈部的路径聚合网络中插入2个通道注意力机制压缩-激励模块,加强通道间的相关性,提高整体网络的检测效果。在SIXray数据集上的实验结果表明,在不增加检测时间的基础上,改进的YOLOv5s算法比原始算法在平均精度均值(mAP)、宏精确率(macro precision)、宏召回率(macro recall)和宏F1(macro-F1)这4个评价指标上分别提升了2.6、2.0、4.0和3.0个百分点。
基金supported by the National Natural Science Foun-dation of China(Nos.61702347,62027801)the Natural Sci-ence Foundation of Hebei Province(Nos.F2022210007,F2017210161)+1 种基金the Science and Technology Project of Hebei Education Department(Nos.ZD2022100,QN2017132)the Central Guidance on Local Science and Technology Development Fund(No.226Z0501G)。
文摘Electricity plays a vital role in daily life and economic development.The status of the indicator lights of the power plant needs to be checked regularly to ensure the normal supply of electricity.Aiming at the problem of a large amount of data and different sizes of indicator light detection,we propose an improved You Only Look Once vision 5(YOLOv5)power plant indicator light detection algorithm.The algorithm improves the feature extraction ability based on YOLOv5s.First,our algorithm enhances the ability of the network to perceive small objects by combining attention modules for multi-scale feature extraction.Second,we adjust the loss function to ensure the stability of the object frame during the regression process and improve the conver-gence accuracy.Finally,transfer learning is used to augment the dataset to improve the robustness of the algorithm.The experimental results show that the average accuracy of the proposed squeeze-and-excitation YOLOv5s(SE-YOLOv5s)algorithm is increased by 4.39%to 95.31%compared with the YOLOv5s algorithm.The proposed algorithm can better meet the engineering needs of power plant indicator light detection.
文摘针对无人机航拍图像目标检测中视野变化大、时空信息复杂等问题,文中基于YOLOv5(You Only Look Once Version5)架构,提出基于图像低维特征融合的航拍小目标检测模型.引入CA(Coordinate Attention),改进MobileNetV3的反转残差块,增加图像空间维度信息的同时降低模型参数量.改进YOLOv5特征金字塔网络结构,融合浅层网络中的特征图,增加模型对图像低维有效信息的表达能力,进而提升小目标检测精度.同时为了降低航拍图像中复杂背景带来的干扰,引入无参平均注意力模块,同时关注图像的空间注意力与通道注意力;引入VariFocal Loss,降低负样本在训练过程中的权重占比.在VisDrone数据集上的实验验证文中模型的有效性,该模型在有效提升检测精度的同时明显降低复杂度.
文摘针对使用传统方法识别评估滑雪运动员的训练动作存在人为主观、准确率低等问题,提出了一种基于改进OpenPose和YOLOv5(You Only Look Once version 5)的动作分析算法。利用CSP-Darknet53(Cross Stage Paritial-Network 53)作为OpenPose外部网络将输入图片降维处理并提取特征图。融合优化YOLOv5算法,提取人体骨骼关键点构成人体骨架与标准动作进行对比,根据角度信息评分,并在模型中加入损失函数,量化实际检测动作与标准动作的误差。该模型可对运动员动作即时监控,能完成初步的动作评估。实验结果表明,检测识别准确率达到95%,可满足日常滑雪训练需求。