案例:基于稠密光流的视频跟踪
API介绍:
calcOpticalFlowFarneback( InputArray prev, InputArray next, InputOutputArray flow,
double pyr_scale, int levels, int winsize,
int iterations, int poly_n, double poly_sigma,
int flags );
实现步骤:
1.实例化VideoCapture
2.使用其open方法打开视频文件
3.获取视频第一帧并得到其灰度图(因为稠密光流输入只支持单通道8位)
4.while(true)循环读取视频帧
5.将当前帧灰度化
6.执行稠密光流函数,并输出光流数据
7.将光流数据绘制出来
8.显示光流数据
(ps:界面中的按钮元素使用到了Qt)
HF_Object_Tracking::HF_Object_Tracking(QWidget *parent)
: MyGraphicsView{parent}
{
this->setWindowTitle("稠密光流对象跟踪");
QPushButton *btn = new QPushButton(this);
btn->setText("选择视频");
connect(btn,&QPushButton::clicked,[=](){
choiceVideo();
});
}
void HF_Object_Tracking::choiceVideo(){
path = QFileDialog::getOpenFileName(this,"请选择视频","/Users/yangwei/Downloads/",tr("Image Files(*.mp4 *.avi)"));
qDebug()<<"视频路径:"<<path;
hfObjectTracking(path.toStdString().c_str());
}
void HF_Object_Tracking::hfObjectTracking(const char* filePath){
VideoCapture capture;
capture.open(filePath);
if(!capture.isOpened()){
qDebug()<<"视频路径为空";
return;
}
Mat frame,gray;
Mat prev_frame ,prev_gray;
Mat flowResult,flowData;
capture.read(frame);//读取第一帧数据
//转灰度图
cvtColor(frame,prev_gray,COLOR_BGR2GRAY);//将frame转灰度图赋值给前一帧
while(capture.read(frame)){
cvtColor(frame,gray,COLOR_BGR2GRAY);
if(!prev_gray.empty()){
//稠密光流跟踪
calcOpticalFlowFarneback(prev_gray,gray,flowData, 0.5, 3, 15, 3, 5, 1.2, 0);
cvtColor(prev_gray, flowResult, COLOR_GRAY2BGR);
for (int row = 0; row < flowResult.rows; row++) {
for (int col = 0; col < flowResult.cols; col++) {
const Point2f fxy = flowData.at<Point2f>(row, col);
if (fxy.x > 1 || fxy.y > 1) {
line(flowResult, Point(col, row), Point(cvRound(col + fxy.x), cvRound(row + fxy.y)), Scalar(0, 255, 0), 2, 8, 0);
circle(flowResult, Point(col, row), 2, Scalar(0, 0, 255), -1);
}
}
}
imshow("flow", flowResult);
imshow("input", frame);
}
// imshow("frame",frame);
int key = waitKey(1);
if(key==27){
break;
}
}
}
