opencv2图像拼接融合 opencv2基于SURF特征提取实现两张图像拼接融合
米姒翰 人气:0要用到两个文件,estimate.cpp和matcher.h(在有关鲁棒匹配这篇博文中有)
estimate.cpp的头文件也需要添加一些东西才行,以下是对的,已经成功运行。
加了using namespace std;之后,cv::可以去掉了。
estimate.cpp:
#include <iostream> #include <vector> #include <opencv2/core/core.hpp> #include <opencv2/imgproc/imgproc.hpp> #include <opencv2/highgui/highgui.hpp> #include <opencv2/features2d/features2d.hpp> #include <opencv2/calib3d/calib3d.hpp> #include<opencv2/nonfree/nonfree.hpp> #include<opencv2\legacy\legacy.hpp> #include "matcher.h" using namespace std; using namespace cv; int main() { // Read input images读入图像 cv::Mat image1= cv::imread("parliament1.bmp",0); cv::Mat image2= cv::imread("parliament2.bmp",0); if (!image1.data || !image2.data) return 0; // Display the images显示图像 cv::namedWindow("Image 1"); cv::imshow("Image 1",image1); cv::namedWindow("Image 2"); cv::imshow("Image 2",image2); // Prepare the matcher准备匹配 RobustMatcher rmatcher; rmatcher.setConfidenceLevel(0.98); rmatcher.setMinDistanceToEpipolar(1.0); rmatcher.setRatio(0.65f); cv::Ptr<cv::FeatureDetector> pfd= new cv::SurfFeatureDetector(10); rmatcher.setFeatureDetector(pfd); // Match the two images std::vector<cv::DMatch> matches; std::vector<cv::KeyPoint> keypoints1, keypoints2; cv::Mat fundemental= rmatcher.match(image1,image2,matches, keypoints1, keypoints2); // draw the matches画匹配结果 cv::Mat imageMatches; cv::drawMatches(image1,keypoints1, // 1st image and its keypoints第一张图像及其关键点 image2,keypoints2, // 2nd image and its keypoints第二张图像及其关键点 matches, // the matches匹配结果 imageMatches, // the image produced产生的图像 cv::Scalar(255,255,255)); // color of the lines线的颜色 cv::namedWindow("Matches"); cv::imshow("Matches",imageMatches); // Convert keypoints into Point2f将关键点转换为Point2f std::vector<cv::Point2f> points1, points2; for (std::vector<cv::DMatch>::const_iterator it= matches.begin(); it!= matches.end(); ++it) {H // Get the position of left keypoints得到左图关键点位置 float x= keypoints1[it->queryIdx].pt.x; float y= keypoints1[it->queryIdx].pt.y; points1.push_back(cv::Point2f(x,y)); // Get the position of right keypoints得到右图关键点位置 x= keypoints2[it->trainIdx].pt.x; y= keypoints2[it->trainIdx].pt.y; points2.push_back(cv::Point2f(x,y)); } std::cout << points1.size() << " " << points2.size() << std::endl; // Find the homography between image 1 and image 2找到图像1和图像2之间的单应性矩阵 std::vector<uchar> inliers(points1.size(),0); cv::Mat homography= cv::findHomography( cv::Mat(points1),cv::Mat(points2), // corresponding points对应点 inliers, // outputed inliers matches 输出内点匹配 CV_RANSAC, // RANSAC method RANSAC 方法 1.); // max distance to reprojection point到对应点的最大距离 // Draw the inlier points画内点 std::vector<cv::Point2f>::const_iterator itPts= points1.begin(); std::vector<uchar>::const_iterator itIn= inliers.begin(); while (itPts!=points1.end()) { // draw a circle at each inlier location在每一个内点画一个圈 if (*itIn) cv::circle(image1,*itPts,3,cv::Scalar(255,255,255),2); ++itPts; ++itIn; } itPts= points2.begin(); itIn= inliers.begin(); while (itPts!=points2.end()) { // draw a circle at each inlier location在每一个内点画一个圈 if (*itIn) cv::circle(image2,*itPts,3,cv::Scalar(255,255,255),2); ++itPts; ++itIn; } // Display the images with points显示画点的图像 cv::namedWindow("Image 1 Homography Points"); cv::imshow("Image 1 Homography Points",image1); cv::namedWindow("Image 2 Homography Points"); cv::imshow("Image 2 Homography Points",image2); // Warp image 1 to image 2变形图像1到图像2 cv::Mat result; cv::warpPerspective(image1, // input image输入的图像 result, // output image输出的图像 homography, // homography单应性矩阵 cv::Size(2*image1.cols,image1.rows)); // size of output image输出图像的大小 // Copy image 1 on the first half of full image复制图像1的上一部分 cv::Mat half(result,cv::Rect(0,0,image2.cols,image2.rows)); image2.copyTo(half); // Display the warp image显示变形后图像 cv::namedWindow("After warping"); cv::imshow("After warping",result); cv::waitKey(); return 0; }
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