Opencv透视变换综合实例详解
更新时间:2019年05月21日 10:01:44 作者:东城青年
这篇文章主要为大家详细介绍了Opencv透视变换综合实例,具有一定的参考价值,感兴趣的小伙伴们可以参考一下
本文实例为大家分享了Opencv透视变换综合实例的具体代码,供大家参考,具体内容如下
案例背景:对下面发生畸变的图像进行校正
方案思路:灰度二值化分割,闭操作,寻找轮廓,霍夫直线检测,直线排序,直线方程,直线交点,透视矩阵,透视变换。
#include<opencv2\opencv.hpp>
using namespace cv;
using namespace std;
int main(int arc, char** argv) {
Mat src = imread("1.jpg");
namedWindow("input", CV_WINDOW_AUTOSIZE);
imshow("input", src);
//灰度化
Mat grayImg;
cvtColor(src, grayImg, CV_BGR2GRAY);
//二值化
Mat binaryImg;
threshold(grayImg, binaryImg, 0, 255, THRESH_BINARY_INV | THRESH_OTSU);
//闭操作
Mat kernel = getStructuringElement(MORPH_RECT,Size(3,3));
morphologyEx(binaryImg, binaryImg, MORPH_CLOSE,kernel,Point(-1,-1) ,3);
imshow("output", binaryImg);
//寻找轮廓
Mat draw = Mat::zeros(src.size(), CV_8UC3);
vector<vector<Point>>contours;
findContours(binaryImg, contours, RETR_EXTERNAL, CHAIN_APPROX_SIMPLE, Point());
for (int i = 0; i < contours.size(); i++) {
Rect rect = boundingRect(contours[i]);
if (rect.width < src.cols / 2 && rect.height < src.rows / 2)continue;
drawContours(draw, contours, i, Scalar(0, 0, 255), 2);
}
imshow("output2", draw);
//霍夫直线检测
vector<Vec4i> lines;
cvtColor(draw, draw, CV_BGR2GRAY);
HoughLinesP(draw, lines, 1, CV_PI / 180, src.rows/2,src.rows/2,0);
Mat draw2 = Mat::zeros(src.size(), CV_8UC3);
for (int j = 0; j < lines.size(); j++) {
Vec4i ln = lines[j];
line(draw2, Point(ln[0], ln[1]), Point(ln[2], ln[3]), Scalar(0, 255, 0), 2);
}
printf("number of line:%d\n", lines.size());
imshow("output3", draw2);
//寻找与定位直线
Vec4i topLine,bottomLine,leftLine,rightLine;
for (int j = 0; j < lines.size(); j++) {
Vec4i ln = lines[j];
if (ln[1] < src.rows / 2 && ln[3] < src.rows / 2) {
topLine = ln;
}
if (ln[1] > src.rows / 2 && ln[3] > src.rows / 2) {
bottomLine = ln;
}
if (ln[0] < src.cols / 2 && ln[2] < src.cols / 2) {
leftLine = ln;
}
if (ln[0] > src.cols / 2 && ln[2] > src.cols / 2) {
rightLine = ln;
}
}
cout << "topLine:p1(x,y)=" << topLine[0] << "," << topLine[1]<<" " << "p2(x,y)=" << topLine[2] << "," << topLine[3] << endl;
cout << "bottomLine:p1(x,y)=" << bottomLine[0] << "," << bottomLine[1] << " " << "p2(x,y)=" << bottomLine[2] << "," << bottomLine[3] << endl;
cout << "leftLine:p1(x,y)=" << leftLine[0] << "," << leftLine[1] << " " << "p2(x,y)=" << leftLine[2] << "," << leftLine[3] << endl;
cout << "rightLine:p1(x,y)=" << rightLine[0] << "," << rightLine[1] << " " << "p2(x,y)=" << rightLine[2] << "," << rightLine[3] << endl;
//求解直线方程
float k1, c1;
k1 = float((topLine[3] - topLine[1])) / float(topLine[2] - topLine[0]);
c1 = topLine[1] - k1*topLine[0];
float k2, c2;
k2 = float((bottomLine[3] - bottomLine[1])) / float(bottomLine[2] - bottomLine[0]);
c2 = bottomLine[1] - k2*bottomLine[0];
float k3, c3;
k3 = float((leftLine[3] - leftLine[1])) / float(leftLine[2] - leftLine[0]);
c3 = leftLine[1] - k3*leftLine[0];
float k4, c4;
k4 = float((rightLine[3] - rightLine[1])) / float(rightLine[2] - rightLine[0]);
c4 = rightLine[1] - k4*rightLine[0];
//求解直线交点
Point p1;
p1.x = (int)((c1 - c3) / (k3 - k1));
p1.y = (int)(k1*p1.x + c1);
Point p2;
p2.x = (int)((c1 - c4) / (k4 - k1));
p2.y = (int)(k1*p2.x + c1);
Point p3;
p3.x = (int)((c2 - c4) / (k4 - k2));
p3.y = (int)(k2*p3.x + c2);
Point p4;
p4.x = (int)((c2 - c3) / (k3 - k2));
p4.y = (int)(k2*p4.x + c2);
cout << "左上角:" << p1.x << "," << p1.y << endl;
cout << "右上角:" << p2.x << "," << p2.y << endl;
cout << "右下角:" << p3.x << "," << p3.y << endl;
cout << "左下角:" << p4.x << "," << p4.y << endl;
//画出交点
circle(draw2, p1, 2, Scalar(0, 0, 255));
circle(draw2, p2, 2, Scalar(0, 0, 255));
circle(draw2, p3, 2, Scalar(0, 0, 255));
circle(draw2, p4, 2, Scalar(0, 0, 255));
imshow("output4", draw2);
//透视变换
vector<Point2f> srcCorners(4);
srcCorners[0] = p1;
srcCorners[1] = p2;
srcCorners[2] = p3;
srcCorners[3] = p4;
vector<Point2f> dstCorners(4);
dstCorners[0] = Point(0, 0);
dstCorners[1] = Point(src.cols, 0);
dstCorners[2] = Point(src.cols, src.rows);
dstCorners[3] = Point(0, src.rows);
Mat warpMartrix = getPerspectiveTransform(srcCorners, dstCorners);//Mat warpMartrix = findHomography(srcCorners, dstCorners);
Mat result = Mat::zeros(src.size(), -1);
warpPerspective(src, result, warpMartrix, result.size(),INTER_LINEAR);
imshow("output5", result);
waitKey(0);
return 0;
}
原图像
二值化闭操作
寻找轮廓
霍夫直线
直线及其交点
效果图
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持脚本之家。
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