先上效果
1.首先,要使用opencv的目标跟踪算法,必须要有opencv环境
使用:opencv==4.4.0 和 opencv-contrib-python==4.4.0.46,lxml 这三个环境包。
也可以使用以下方法进行下载 :
pip install opencv-python==4.4.0
pip install opencv-contrib-python==4.4.0.4pip install lxml
2.使用方法:
(1):英文状态下的 “s” 是进行标注
(2):使用小键盘 1-9 按下对应的标签序号,标签序号和标签可自定义(需要提前定义)
(3):对目标进行绘制
(4):按空格键继续
重复进行 (1)(2)(3)(4)步骤,可实现多个目标的跟踪绘制
英文状态下的 “r” 是所有清除绘制
英文状态下的 “q” 是退出
当被跟踪目标丢失时,自动清除所有绘制
import cv2 import os import time from lxml import etree #视频路径 Vs = cv2.VideoCapture('peaple.avi') #自定义标签 Label = {1:"people",2:"car",3:"Camera"} #图片保存路径 ,一定使用要用绝对路径!! imgpath = r"C:\Users\BGT\Desktop\opencv\img" #xml保存路径 ,一定使用要用绝对路径!! xmlpath = r"C:\Users\BGT\Desktop\opencv\xml" #设置视频缩放 cv2.namedWindow("frame", 0) #设置视频宽高 cv2.resizeWindow("frame", 618, 416) #定义生成xml类 class Gen_Annotations: def __init__(self, json_info): self.root = etree.Element("annotation") child1 = etree.SubElement(self.root, "folder") child1.text = str(json_info["pic_dirname"]) child2 = etree.SubElement(self.root, "filename") child2.text = str(json_info["filename"]) child3 = etree.SubElement(self.root, "path") child3.text = str(json_info["pic_path"]) child4 = etree.SubElement(self.root, "source") child5 = etree.SubElement(child4, "database") child5.text = "My name is BGT" def set_size(self, witdh, height, channel): size = etree.SubElement(self.root, "size") widthn = etree.SubElement(size, "width") widthn.text = str(witdh) heightn = etree.SubElement(size, "height") heightn.text = str(height) channeln = etree.SubElement(size, "depth") channeln.text = str(channel) segmented = etree.SubElement(self.root, "segmented") segmented.text = "0" def savefile(self, filename): tree = etree.ElementTree(self.root) tree.write(filename, pretty_print=True, xml_declaration=False, encoding='utf-8') def add_pic_attr(self, label, x0, y0, x1, y1): object = etree.SubElement(self.root, "object") namen = etree.SubElement(object, "name") namen.text = label pose = etree.SubElement(object, "pose") pose.text = "Unspecified" truncated = etree.SubElement(object, "truncated") truncated.text = "0" difficult = etree.SubElement(object, "difficult") difficult.text = "0" bndbox = etree.SubElement(object, "bndbox") xminn = etree.SubElement(bndbox, "xmin") xminn.text = str(x0) yminn = etree.SubElement(bndbox, "ymin") yminn.text = str(y0) xmaxn = etree.SubElement(bndbox, "xmax") xmaxn.text = str(x1) ymaxn = etree.SubElement(bndbox, "ymax") ymaxn.text = str(y1) #定义生成xml的方法 def voc_opencv_xml(a,b,c,d,e,f,boxes,Label,Label_a,save="1.xml"): json_info = {} json_info["pic_dirname"] = a json_info["pic_path"] = b json_info["filename"] = c anno = Gen_Annotations(json_info) anno.set_size(d, e, f) for box in range(len(boxes)): x,y,w,h = [int(v) for v in boxes[box]] anno.add_pic_attr(Label[Label_a[box]],x,y,x+w,y+h) anno.savefile(save) if __name__ == '__main__': Label_a = [] contents = os.path.split(imgpath)[1] trackers = cv2.MultiTracker_create() while True: Filename_jpg = str(time.time()).split(".")[0] + "_" + str(time.time()).split(".")[1] + ".jpg" Filename_xml = str(time.time()).split(".")[0] + "_" + str(time.time()).split(".")[1] + ".xml" path_Filename_jpg = os.path.join(imgpath,Filename_jpg) path_Filename_xml = os.path.join(xmlpath,Filename_xml) ret,frame = Vs.read() if not ret: break success,boxes = trackers.update(frame) if len(boxes)>0: cv2.imwrite(path_Filename_jpg, frame) judge = True else: judge = False if success==False: print("目标丢失") trackers = cv2.MultiTracker_create() Label_a = [] judge = False if judge: voc_opencv_xml(contents,Filename_jpg,path_Filename_jpg,frame.shape[1],frame.shape[0],frame.shape[2],boxes,Label,Label_a,path_Filename_xml) if judge: for box in range(len(boxes)): x,y,w,h = [int(v) for v in boxes[box]] cv2.putText(frame, Label[Label_a[box]], (x, y), cv2.FONT_HERSHEY_COMPLEX, 1, (255, 255, 255), 1) cv2.rectangle(frame,(x,y),(x+w,y+h),(255,0,0),2) cv2.imshow('frame',frame) var = cv2.waitKey(30) if var == ord('s'): imgzi = cv2.putText(frame, str(Label), (50, 50), cv2.FONT_HERSHEY_TRIPLEX, 1, (0, 255, 0), 2) cv2.imshow('frame', frame) var = cv2.waitKey(0) if var-48
3.得到xml和img数据是VOC格式,img和xml文件以时间戳进行命名。防止同名覆盖。
4.最后使用 labelImg软件 对获取到的img和xml进行最后的检查和微调
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