Improved picture quality is critical to the effectiveness of object recog-nition and tracking.The consistency of those photos is impacted by night-video systems because the contrast between high-profile items and diffe...Improved picture quality is critical to the effectiveness of object recog-nition and tracking.The consistency of those photos is impacted by night-video systems because the contrast between high-profile items and different atmospheric conditions,such as mist,fog,dust etc.The pictures then shift in intensity,colour,polarity and consistency.A general challenge for computer vision analyses lies in the horrid appearance of night images in arbitrary illumination and ambient envir-onments.In recent years,target recognition techniques focused on deep learning and machine learning have become standard algorithms for object detection with the exponential growth of computer performance capabilities.However,the iden-tification of objects in the night world also poses further problems because of the distorted backdrop and dim light.The Correlation aware LSTM based YOLO(You Look Only Once)classifier method for exact object recognition and deter-mining its properties under night vision was a major inspiration for this work.In order to create virtual target sets similar to daily environments,we employ night images as inputs;and to obtain high enhanced image using histogram based enhancement and iterative wienerfilter for removing the noise in the image.The process of the feature extraction and feature selection was done for electing the potential features using the Adaptive internal linear embedding(AILE)and uplift linear discriminant analysis(ULDA).The region of interest mask can be segmen-ted using the Recurrent-Phase Level set Segmentation.Finally,we use deep con-volution feature fusion and region of interest pooling to integrate the presently extremely sophisticated quicker Long short term memory based(LSTM)with YOLO method for object tracking system.A range of experimentalfindings demonstrate that our technique achieves high average accuracy with a precision of 99.7%for object detection of SSAN datasets that is considerably more than that of the other standard object detection mechanism.Our approach may therefore satisfy the true demands of night scene target detection applications.We very much believe that our method will help future research.展开更多
针对Yolov3-Tiny算法在加油站监控场景检测时由于数据特征提取不充分而导致检测精度低、漏检率高等问题,提出一种基于加油站场景的Misp-YOLO(You Only Look Once)目标检测算法。首先引入Mosaic数据增强算法,使图片包含更多特征信息;其...针对Yolov3-Tiny算法在加油站监控场景检测时由于数据特征提取不充分而导致检测精度低、漏检率高等问题,提出一种基于加油站场景的Misp-YOLO(You Only Look Once)目标检测算法。首先引入Mosaic数据增强算法,使图片包含更多特征信息;其次使用InceptionV2和PSConv(Poly-Scale Convolution)多尺度特征提取方法提升网络多尺度预测能力;最后结合scSE(Concurrent Spatial and Channel ‘Squeeze&Excitation’)注意力机制,重构主干网络输出特征。实验结果证明该算法具有较高检测准确度,并且检测速度满足实际需求。优化后的算法性能得到极大提升,可推广应用于其他目标检测中。展开更多
农作物病虫害是农业生产管理的关键,为及时防控病虫害,人们通过各种技术手段识别和监测病虫害。本文通过介绍目标检测算法YOLO (You Only Look Once)的发展历程及其在农作物病虫害识别中的应用,着重分析了YOLO算法在提高农作物病虫害识...农作物病虫害是农业生产管理的关键,为及时防控病虫害,人们通过各种技术手段识别和监测病虫害。本文通过介绍目标检测算法YOLO (You Only Look Once)的发展历程及其在农作物病虫害识别中的应用,着重分析了YOLO算法在提高农作物病虫害识别准确度和缩短识别时间的优势,以期为农业生产提供科学指导。展开更多
针对传统目测法检测贴片二极管表面缺陷效率低下和基于手工特征的目标检测算法模型较浅,以及语义性不高等问题,提出了改进YOLO-V4的贴片二极管表面缺陷检测方法。首先考虑到随着网络加深使梯度消失,以及减少网络中的特征冗余和参数量的...针对传统目测法检测贴片二极管表面缺陷效率低下和基于手工特征的目标检测算法模型较浅,以及语义性不高等问题,提出了改进YOLO-V4的贴片二极管表面缺陷检测方法。首先考虑到随着网络加深使梯度消失,以及减少网络中的特征冗余和参数量的情况,CSP1模块采用DenseNet替换原网络中的ResNet;其次,为了实现特征信息的跨维度交互,让网络更加关注重要信息,在CSP1模块后引入了三分支注意力机制模块,同时使用FPN+PANet对特征进行融合;并且用CSP2替换CBL×5模块,降低了网络的运算量,提高了算法检测速度;最后优化了Focal Loss函数,对正负样本添加权重,以解决正负样本不平衡的问题。本文算法相较于YOLO-V4的检测精度(precision,P)、召回率(recall,R)和多分类平均精度(mean average precision,mAP),分别高出2.98%,2.65%,2.92%,表明改进YOLO-V4可以有效检测贴片二极管表面缺陷问题。展开更多
文摘Improved picture quality is critical to the effectiveness of object recog-nition and tracking.The consistency of those photos is impacted by night-video systems because the contrast between high-profile items and different atmospheric conditions,such as mist,fog,dust etc.The pictures then shift in intensity,colour,polarity and consistency.A general challenge for computer vision analyses lies in the horrid appearance of night images in arbitrary illumination and ambient envir-onments.In recent years,target recognition techniques focused on deep learning and machine learning have become standard algorithms for object detection with the exponential growth of computer performance capabilities.However,the iden-tification of objects in the night world also poses further problems because of the distorted backdrop and dim light.The Correlation aware LSTM based YOLO(You Look Only Once)classifier method for exact object recognition and deter-mining its properties under night vision was a major inspiration for this work.In order to create virtual target sets similar to daily environments,we employ night images as inputs;and to obtain high enhanced image using histogram based enhancement and iterative wienerfilter for removing the noise in the image.The process of the feature extraction and feature selection was done for electing the potential features using the Adaptive internal linear embedding(AILE)and uplift linear discriminant analysis(ULDA).The region of interest mask can be segmen-ted using the Recurrent-Phase Level set Segmentation.Finally,we use deep con-volution feature fusion and region of interest pooling to integrate the presently extremely sophisticated quicker Long short term memory based(LSTM)with YOLO method for object tracking system.A range of experimentalfindings demonstrate that our technique achieves high average accuracy with a precision of 99.7%for object detection of SSAN datasets that is considerably more than that of the other standard object detection mechanism.Our approach may therefore satisfy the true demands of night scene target detection applications.We very much believe that our method will help future research.
文摘针对Yolov3-Tiny算法在加油站监控场景检测时由于数据特征提取不充分而导致检测精度低、漏检率高等问题,提出一种基于加油站场景的Misp-YOLO(You Only Look Once)目标检测算法。首先引入Mosaic数据增强算法,使图片包含更多特征信息;其次使用InceptionV2和PSConv(Poly-Scale Convolution)多尺度特征提取方法提升网络多尺度预测能力;最后结合scSE(Concurrent Spatial and Channel ‘Squeeze&Excitation’)注意力机制,重构主干网络输出特征。实验结果证明该算法具有较高检测准确度,并且检测速度满足实际需求。优化后的算法性能得到极大提升,可推广应用于其他目标检测中。
文摘农作物病虫害是农业生产管理的关键,为及时防控病虫害,人们通过各种技术手段识别和监测病虫害。本文通过介绍目标检测算法YOLO (You Only Look Once)的发展历程及其在农作物病虫害识别中的应用,着重分析了YOLO算法在提高农作物病虫害识别准确度和缩短识别时间的优势,以期为农业生产提供科学指导。
文摘针对传统目测法检测贴片二极管表面缺陷效率低下和基于手工特征的目标检测算法模型较浅,以及语义性不高等问题,提出了改进YOLO-V4的贴片二极管表面缺陷检测方法。首先考虑到随着网络加深使梯度消失,以及减少网络中的特征冗余和参数量的情况,CSP1模块采用DenseNet替换原网络中的ResNet;其次,为了实现特征信息的跨维度交互,让网络更加关注重要信息,在CSP1模块后引入了三分支注意力机制模块,同时使用FPN+PANet对特征进行融合;并且用CSP2替换CBL×5模块,降低了网络的运算量,提高了算法检测速度;最后优化了Focal Loss函数,对正负样本添加权重,以解决正负样本不平衡的问题。本文算法相较于YOLO-V4的检测精度(precision,P)、召回率(recall,R)和多分类平均精度(mean average precision,mAP),分别高出2.98%,2.65%,2.92%,表明改进YOLO-V4可以有效检测贴片二极管表面缺陷问题。