- //Ax+by+cz=D
- void cvFitPlane(const CvMat* points, float* plane){
- // Estimate geometric centroid.
- int nrows = points->rows;
- int ncols = points->cols;
- int type = points->type;
- CvMat* centroid = cvCreateMat(1, ncols, type);
- cvSet(centroid, cvScalar(0));
- for (int c = 0; c<ncols; c++){ //用地址的形式才能实现先列后行的操作,如果用Mat型只能先行后列
- for (int r = 0; r < nrows; r++)
- {
- centroid->data.fl[c] += points->data.fl[ncols*r + c];
- }
- centroid->data.fl[c] /= nrows;
- }
- // Subtract geometric centroid from each point.
- CvMat* points2 = cvCreateMat(nrows, ncols, type);
- for (int r = 0; r<nrows; r++)
- for (int c = 0; c<ncols; c++)
- points2->data.fl[ncols*r + c] = points->data.fl[ncols*r + c] - centroid->data.fl[c];
- // Evaluate SVD of covariance matrix.
- CvMat* A = cvCreateMat(ncols, ncols, type);
- CvMat* W = cvCreateMat(ncols, ncols, type);
- CvMat* V = cvCreateMat(ncols, ncols, type);
- cvGEMM(points2, points, 1, NULL, 0, A, CV_GEMM_A_T); //points也要为CVMat型
- cvSVD(A, W, NULL, V, CV_SVD_V_T);
- // Assign plane coefficients by singular vector corresponding to smallest singular value.
- plane[ncols] = 0;
- for (int c = 0; c<ncols; c++){
- plane[c] = V->data.fl[ncols*(ncols - 1) + c];
- plane[ncols] += plane[c] * centroid->data.fl[c];
- }
- // Release allocated resources.
- cvReleaseMat(¢roid);
- cvReleaseMat(&points2);
- cvReleaseMat(&A);
- cvReleaseMat(&W);
- cvReleaseMat(&V);
- }
调用的方式:
- CvMat*points_mat = cvCreateMat(X_vector.size(), 3, CV_32FC1);//定义用来存储需要拟合点的矩阵
- for (int i=0;i < X_vector.size(); ++i)
- {
- points_mat->data.fl[i*3+0] = X_vector[i];//矩阵的值进行初始化 X的坐标值
- points_mat->data.fl[i * 3 + 1] = Y_vector[i];// Y的坐标值
- points_mat->data.fl[i * 3 + 2] = Z_vector[i];<span style="font-family: Arial, Helvetica, sans-serif;">// Z的坐标值</span>
- }
- float plane12[4] = { 0 };//定义用来储存平面参数的数组
- cvFitPlane(points_mat, plane12);//调用方程
其中 A=plane12[0], B=plane12[1], C=plane12[2], D=plane12[3],
这是要注意的方程的表示