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Yolo训练自定义数据集


Yolov4环境搭建

这里的环境与yolov3大致相同,差别主要在pre-train weightsconv连接

Cloning and Building Darknet

clone darknet from AlexeyAB’s famous repository,

git clone https://github.com/AlexeyAB/darknet

adjust the Makefile to enable OPENCV and GPU for darknet

cd darknet
sed -i 's/OPENCV=0/OPENCV=1/' Makefile
sed -i 's/GPU=0/GPU=1/' Makefile
sed -i 's/CUDNN=0/CUDNN=1/' Makefile
sed -i 's/CUDNN_HALF=0/CUDNN_HALF=1/' Makefile

build darknet

make

Pre-trained yolov4 weights

YOLOv4 has been trained already on the coco dataset which has 80 classes that it can predict.

wget https://github.com/AlexeyAB/darknet/releases/download/darknet_yolo_v3_optimal/yolov4.weights

Test env Enabled

./darknet detector test cfg/coco.data cfg/yolov4.cfg yolov4.weights data/person.jpg

Yolo训练自定义数据集_ide

Multiple Images at Once

  1. make a ​​.txt​​ file which has the paths to several images want to be detected at once

data/person.jpg
data/horses.jpg
data/giraffe.jpg
data/dog.jpg

  1. save result to ​​.json​​ file

./darknet detector test cfg/coco.data cfg/yolov3.cfg yolov3.weights -ext_output -dont_show -out result.json < list.txt

[{
"frame_id": 1,
"filename": "data/person.jpg",
"objects": [{
"class_id": 17,
"name": "horse",
"relative_coordinates": {
"center_x": 0.783550,
"center_y": 0.566949,
"width": 0.335207,
"height": 0.486880
},
"confidence": 0.997604
},
{
"class_id": 16,
"name": "dog",
"relative_coordinates": {
"center_x": 0.206590,
"center_y": 0.722102,
"width": 0.229715,
"height": 0.210134
},
"confidence": 0.994348
},
{
"class_id": 0,
"name": "person",
"relative_coordinates": {
"center_x": 0.364771,
"center_y": 0.558493,
"width": 0.134738,
"height": 0.669826
},
"confidence": 0.999949
}
]
},
//...
]


Yolo command line flags

  • ​-thresh​​: add a threshold for confidences on the detections, only detections with a confidence level above the threshold will be returned
  • ​-dont_show​​: not have the image outputted after running darknet
  • ​-ext_output​​: output bounding box coordinates

dog: 99%  (left_x:   59   top_y:  262   width:  147   height:   89)
person: 100% (left_x: 190 top_y: 95 width: 86 height: 284)
horse: 100% (left_x: 394 top_y: 137 width: 215 height: 206)


Yolov4训练自定义数据集

大致方法与yolov3相同,但昨天的训练更多的使用比较成熟的解决方案,对具体步骤还不是完全明白掌握,因此决定今天再次详细的从头进行学习

  • Labeled Custom Dataset
  • Custom .cfg file
  • obj.data and obj.names files
  • train.txt file (test.txt is optional here as well)

Gathering and Labeling a Custom Dataset

Using Google’s Open Images Dataset

由于实验室的任务针对特定几种玩具,且在扩展性上没有太强硬的要求。因此谷歌的开源数据集仅做学习使用,还是采用自己标注数据集的方法进行数据集的构建

  • ​​Google’s Open Images Dataset​​
  • ​​OIDv4 toolkit​​

Manually Labeling Images with labelImg(Annotation Tool)

  • ​​labelImg工具使用​​


至此已经准备好用于train和valid的数据集了

Configuring Files for Training

cfg file

edit the ​​yolov4.cfg​​ to fit the needs based on the object detector

  • ​bash=64​​​ & ​​subdivisions=16​​:网上比较推荐的参数

这里受限于服务器容量 将subdivisions设为32,但是速度仍然很慢

  • ​classes=4​​ in the three YOLO layers
  • ​filters=(classes + 5) * 3​​: three convolutional layers before the YOLO layers
  • ​width=416​​​ & ​​height=416​​: any multiple of 32, 416 is standard
  • improve results by making value larger like 608 but will slow down training
  • ​max_batches=(# of classes) * 2000​​: but no less than 6000
  • ​steps=(80% of max_batches), (90% of max_batches)​
  • ​random=1​​: if run into memory issues or find the training taking a super long time, change three yolo layers from 1 to 0 to speed up training but slightly reduce accurancy of model

obj.names

one class name per line in the same order as dataset generation step

NOTE: don’t have spaces in class name, use _ for replacement

sheep
giraffe
cloud
snow

obj.data

classes= 4
train = data/train.txt
valid = data/test.txt
names = data/obj.names
backup = backup

  • ​backup​​: where save the weights to of the model throughout training

train.txt and test.txt

hold the reletive paths to all the training images and valididation images, it contain one line for each training image path or validation image path

Train Custom Object Detector

Download pre-trained weights for the convolutional layers. By using these weights it helps custom object detector to be way more accurate and not have to train as long.

wget https://github.com/AlexeyAB/darknet/releases/download/darknet_yolo_v3_optimal/yolov4.conv.137

train

./darknet detector train ../../data/obj.data cfg/yolov4_custom.cfg yolov4.conv.137 -dont_show

Checking the mAP of the Model

mAP: mean average precision

./darknet detector map ../../data/obj.data cfg/yolov4_custom.cfg backup/yolov4_custom_last.weights

the highest mAP, the most accurate is


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