opencv::图像矩(Image Moments)
矩的概念介绍
1、几何矩
2、中心距
3、中心归一化距
4、图像中心Center(x0, y0)
计算矩 moments( InputArray array, // 输入数据 bool binaryImage=false // 是否为二值图像 ) contourArea( InputArray contour, // 输入轮廓数据 bool oriented // 默认false、返回绝对值 ) arcLength( InputArray curve, // 输入曲线数据 bool closed // 是否是封闭曲线 )
步骤
提取图像边缘
发现轮廓
计算每个轮廓对象的矩
计算每个对象的中心、弧长、面积
Mat src, gray_src; int threshold_value = 80; int threshold_max = 255; const char* output_win = "image moents demo"; RNG rng(12345); void Demo_Moments(int, void*); int main(int argc, char** argv) { src = imread(STRPAHT3); if (!src.data) { printf("could not load image...\n"); return -1; } cvtColor(src, gray_src, CV_BGR2GRAY); GaussianBlur(gray_src, gray_src, Size(3, 3), 0, 0); char input_win[] = "input image"; namedWindow(input_win, CV_WINDOW_AUTOSIZE); namedWindow(output_win, CV_WINDOW_AUTOSIZE); imshow(input_win, src); createTrackbar("Threshold Value : ", output_win, &threshold_value, threshold_max, Demo_Moments); Demo_Moments(0, 0); waitKey(0); return 0; } void Demo_Moments(int, void*) { Mat canny_output; vector<vector<Point>> contours; vector<Vec4i> hierachy; //提取图像边缘 Canny(gray_src, canny_output, threshold_value, threshold_value * 2, 3, false); //发现轮廓 findContours(canny_output, contours, hierachy, RETR_TREE, CHAIN_APPROX_SIMPLE, Point(0, 0)); vector<Moments> contours_moments(contours.size()); vector<Point2f> ccs(contours.size()); for (size_t i = 0; i < contours.size(); i++) { contours_moments[i] = moments(contours[i]); ccs[i] = Point(static_cast<float>(contours_moments[i].m10 / contours_moments[i].m00), static_cast<float>(contours_moments[i].m01 / contours_moments[i].m00)); } Mat drawImg;// = Mat::zeros(src.size(), CV_8UC3); src.copyTo(drawImg); for (size_t i = 0; i < contours.size(); i++) { if (contours[i].size() < 100) { continue; } Scalar color = Scalar(rng.uniform(0, 255), rng.uniform(0, 255), rng.uniform(0, 255)); printf("center point x : %.2f y : %.2f\n", ccs[i].x, ccs[i].y); printf("contours %d area : %.2f arc length : %.2f\n", i, contourArea(contours[i]), arcLength(contours[i], true)); drawContours(drawImg, contours, i, color, 2, 8, hierachy, 0, Point(0, 0)); circle(drawImg, ccs[i], 2, color, 2, 8); } imshow(output_win, drawImg); return; }