首页 > 代码库 > opencv标定程序(改动)
opencv标定程序(改动)
转载请注明来自:http://blog.csdn.net/zhouyelihua/article/details/38421377
资源下载见:点击打开链接
百度云盘免积分下载:https://pan.baidu.com/s/1bzy20u
有关于标定的基本原理详见点击打开链接
看到本文被转载非常多次非常高兴可是之前的代码有点小问题且不易懂。于是乎写了一个简洁的代码
首先介绍用本程序标定的步骤:
1,。
拍完图片之后将图片重命名为下图所看到的形式
2.将照片放在程序的cam目录下
3.然后执行程序。依照提示输入信息
4.最后在output目录找到result_data_no_optim.txt
代码例如以下:
//author:YeahPingYE //function:auto calibration //time:2014/11/25 // // #include<highgui.h> #include<cv.h> #include<iostream> #include<fstream> using namespace std; void save_result(CvMat*cam_rotation_all, CvMat*cam_translation_vector_all, CvMat*cam_intrinsic_matrix, CvMat*cam_distortion_coeffs,char*pathc,int sucesses); int main() { /*initialation //input:the number of images......num_image // prj_board_w,prj_board_h // cam_board_w,cam_board_h */ CvMat*cam_object_points2; CvMat*cam_image_points2; int cam_board_n; int successes = 0; int img_num, cam_board_w, cam_board_h,cam_Dx,cam_Dy; cout << "输入的图像的组数\n"; cin >> img_num; cout << "输入**真实**棋盘格的##横轴##方向的角点个数\n"; cin >> cam_board_w; cout << "输入**真实**棋盘格的##纵轴##方向的角点个数\n"; cin >> cam_board_h; cout << "输入**真实**棋盘格的##横轴##方向的长度\n"; cin >> cam_Dx; cout << "输入**真实**棋盘格的##纵轴##方向的长度\n"; cin >> cam_Dy; cam_board_n = cam_board_w*cam_board_h; /* //init // // */ //camera init CvSize cam_board_sz = cvSize(cam_board_w, cam_board_h); CvMat*cam_image_points = cvCreateMat(cam_board_n*(img_num), 2, CV_32FC1); CvMat*cam_object_points = cvCreateMat(cam_board_n*(img_num), 3, CV_32FC1); CvMat*cam_point_counts = cvCreateMat((img_num), 1, CV_32SC1); CvPoint2D32f*cam_corners = new CvPoint2D32f[cam_board_n]; int cam_corner_count; int cam_step; CvMat*cam_intrinsic_matrix = cvCreateMat(3, 3, CV_32FC1); CvMat*cam_distortion_coeffs = cvCreateMat(4, 1, CV_32FC1); CvSize cam_image_sz; //window intit cvNamedWindow("window", 0); //get image size IplImage *cam_image_temp = cvLoadImage("..\\cam\\cam1.bmp", 0); cam_image_sz = cvGetSize(cam_image_temp); char failurebuf[20] = { 0 }; /* //extract cornner // camera image // // pattern */ /* //extrat the cam cornner // // // */ fstream cam_data; cam_data.open("..\\output\\TXT\\cam_corners.txt", ofstream::out); fstream cam_object_data; cam_object_data.open("..\\output\\TXT\\cam_object_data.txt", ofstream::out); //process the prj image so that we can easy find cornner for (int ii = 1; ii < img_num + 1; ii++) { char cambuf[20] = { 0 }; sprintf(cambuf, "..\\cam\\cam%d.bmp", ii); IplImage *cam_image = cvLoadImage(cambuf, 0); //extract cam cornner int cam_found = cvFindChessboardCorners(cam_image, cam_board_sz, cam_corners, &cam_corner_count, CV_CALIB_CB_ADAPTIVE_THRESH | CV_CALIB_CB_FILTER_QUADS); cvFindCornerSubPix(cam_image, cam_corners, cam_corner_count, cvSize(11, 11), cvSize(-1, -1), cvTermCriteria(CV_TERMCRIT_EPS + CV_TERMCRIT_ITER, 30, 0.1)); cvDrawChessboardCorners(cam_image, cam_board_sz, cam_corners, cam_corner_count, cam_found); if (cam_corner_count != cam_board_n) cout << "find cam"<<ii<<" corner failed!\n"; //when cam and prj are success store the result if ( cam_corner_count == cam_board_n) { //store cam result cam_step = successes*cam_board_n; for (int i = cam_step, j = 0; j < cam_board_n; ++i, ++j) { CV_MAT_ELEM(*cam_image_points, float, i, 0) = cam_corners[j].x; CV_MAT_ELEM(*cam_image_points, float, i, 1) = cam_corners[j].y; CV_MAT_ELEM(*cam_object_points, float, i, 0) = (j/cam_board_w)*cam_Dx; CV_MAT_ELEM(*cam_object_points, float, i, 1) = (j % cam_board_w)*cam_Dy; CV_MAT_ELEM(*cam_object_points, float, i, 2) = 0.0f; cam_data << cam_corners[j].x << "\t" << cam_corners[j].y << "\n"; cam_object_data << (j/cam_board_w)*cam_Dx << "\t" << (j %cam_board_w)*cam_Dy << "\t0\n"; } CV_MAT_ELEM(*cam_point_counts, int, successes, 0) = cam_board_n; successes++; cout << "success number" << successes << endl; cvShowImage("window", cam_image); cvWaitKey(500); } } if (successes < 2) exit(0); /* //restore the success point */ //cam cam_image_points2 = cvCreateMat(cam_board_n*(successes), 2, CV_32FC1); cam_object_points2 = cvCreateMat(cam_board_n*(successes), 3, CV_32FC1); CvMat*cam_point_counts2 = cvCreateMat((successes), 1, CV_32SC1); for (int i = 0; i < successes*cam_board_n; ++i){ CV_MAT_ELEM(*cam_image_points2, float, i, 0) = CV_MAT_ELEM(*cam_image_points, float, i, 0); CV_MAT_ELEM(*cam_image_points2, float, i, 1) = CV_MAT_ELEM(*cam_image_points, float, i, 1); CV_MAT_ELEM(*cam_object_points2, float, i, 0) = CV_MAT_ELEM(*cam_object_points, float, i, 0); CV_MAT_ELEM(*cam_object_points2, float, i, 1) = CV_MAT_ELEM(*cam_object_points, float, i, 1); CV_MAT_ELEM(*cam_object_points2, float, i, 2) = CV_MAT_ELEM(*cam_object_points, float, i, 2); } for (int i = 0; i < successes; ++i){ CV_MAT_ELEM(*cam_point_counts2, int, i, 0) = CV_MAT_ELEM(*cam_point_counts, int, i, 0); } cvSave("..\\output\\XML\\cam_corners.xml", cam_image_points2); cvReleaseMat(&cam_object_points); cvReleaseMat(&cam_image_points); cvReleaseMat(&cam_point_counts); /* //calibration for camera // */ //calib for cam CV_MAT_ELEM(*cam_intrinsic_matrix, float, 0, 0) = 1.0f; CV_MAT_ELEM(*cam_intrinsic_matrix, float, 1, 1) = 1.0f; CvMat* cam_rotation_all = cvCreateMat( successes, 3, CV_32FC1); CvMat* cam_translation_vector_all = cvCreateMat( successes,3, CV_32FC1); cvCalibrateCamera2( cam_object_points2, cam_image_points2, cam_point_counts2, cam_image_sz, cam_intrinsic_matrix, cam_distortion_coeffs, cam_rotation_all, cam_translation_vector_all, 0//CV_CALIB_FIX_ASPECT_RATIO ); cvSave("..\\output\\XML\\cam_intrinsic_matrix.xml", cam_intrinsic_matrix); cvSave("..\\output\\XML\\cam_distortion_coeffs.xml", cam_distortion_coeffs); //calib cvSave("..\\output\\XML\\cam_rotation_all.xml", cam_rotation_all); cvSave("..\\output\\XML\\cam_translation_vector_all.xml", cam_translation_vector_all); char path1[100] = "..\\output\\result_data_no_optim.txt"; save_result(cam_rotation_all, cam_translation_vector_all, cam_intrinsic_matrix, cam_distortion_coeffs,path1,successes); } void save_result(CvMat*cam_rotation_all, CvMat*cam_translation_vector_all, CvMat*cam_intrinsic_matrix, CvMat*cam_distortion_coeffs,char*pathc,int sucesses) { fstream Yeah_result; Yeah_result.open(pathc, ofstream::out); Yeah_result << setprecision(12) << "fc[0] =" << CV_MAT_ELEM(*cam_intrinsic_matrix, float, 0, 0 ) << "; fc[1] =" << CV_MAT_ELEM(*cam_intrinsic_matrix, float, 1, 1) << "; //CAM的焦距\n"; Yeah_result << setprecision(12) << "cc[0] = " << CV_MAT_ELEM(*cam_intrinsic_matrix, float, 0, 2) << "; cc[1] = " << CV_MAT_ELEM(*cam_intrinsic_matrix, float, 1, 2) << ";//CAM中心点\n"; Yeah_result << setprecision(12) << "kc[0] =" << CV_MAT_ELEM(*cam_distortion_coeffs, float, 0, 0) << "; kc[1] =" << CV_MAT_ELEM(*cam_distortion_coeffs, float, 1, 0) << "; kc[2] =" << CV_MAT_ELEM(*cam_distortion_coeffs, float, 2, 0) << "; kc[3] =" << CV_MAT_ELEM(*cam_distortion_coeffs, float, 3, 0) << "; kc[4] =0;//畸变參数,请參照MATLAB里的定义\n\n外參数:\n"; for(int i=0;i<sucesses;++i) { Yeah_result<<"r:("<<setprecision(12) <<CV_MAT_ELEM(*cam_rotation_all, float, i, 0)<<"\t,"<<CV_MAT_ELEM(*cam_rotation_all, float, i, 1)<<"\t,"<<CV_MAT_ELEM(*cam_rotation_all, float, i, 2)<<")\n"; Yeah_result<<"t:("<<setprecision(12) <<CV_MAT_ELEM(*cam_translation_vector_all, float, i, 0)<<"\t,"<<CV_MAT_ELEM(*cam_translation_vector_all, float, i, 1)<<"\t,"<<CV_MAT_ELEM(*cam_translation_vector_all, float, i, 2)<<")\n\n\n"; } }
假设您认为此博客对您实用,欢迎对我进行小额赞助
不筹钱娶媳妇的程序猿不是好程序猿。
opencv标定程序(改动)
声明:以上内容来自用户投稿及互联网公开渠道收集整理发布,本网站不拥有所有权,未作人工编辑处理,也不承担相关法律责任,若内容有误或涉及侵权可进行投诉: 投诉/举报 工作人员会在5个工作日内联系你,一经查实,本站将立刻删除涉嫌侵权内容。