//
// Created by Qian.
//
#include <opencv2/opencv.hpp>
#include <string>
using namespace std;
string image_file = "../test.png"; // 请确保路径正确
int main(int argc, char **argv) {
// 本程序需要你自己实现去畸变部分的代码。尽管我们可以调用OpenCV的去畸变,但自己实现一遍有助于理解。
// 畸变参数
double k1 = -0.28340811, k2 = 0.07395907, p1 = 0.00019359, p2 = 1.76187114e-05;
// 内参
double fx = 458.654, fy = 457.296, cx = 367.215, cy = 248.375;
cv::Mat image = cv::imread(image_file,CV_8UC1); // 图像是灰度图,CV_8UC1
int rows = image.rows, cols = image.cols;
cv::Mat image_undistort = cv::Mat(rows, cols, CV_8UC1); // 去畸变以后的图
// 计算去畸变后图像的内容
for (int v = 0; v < rows; v++)
for (int u = 0; u < cols; u++) {
double u_distorted = 0, v_distorted = 0;
// TODO 按照公式,计算点(u,v)对应到畸变图像中的坐标(u_distorted, v_distorted) (~6 lines)
// start your code here
//首先转化成归一化坐标
double x=(u-cx)/fx;
double y=(v-cy)/fy;
double r2=x*x+y*y;
double x_distorted = x * (1 + k1 * r2 + k2 * r2 * r2)+2*p1*x*y+p2*(r2+2*x*x);
double y_distorted= y * (1 + k1 * r2 + k2 * r2 * r2)+p1*(r2+2*y*y)+2*p2*x*y;
// double x_distorted = x * (1 + k1 * r2 + k2 * r2 * r2);
// double y_distorted= y * (1 + k1 * r2 + k2 * r2 * r2);
//还原为像素坐标
u_distorted = fx * x_distorted + cx;
v_distorted = fy * y_distorted + cy;
// end your code here
// 赋值 (最近邻插值)
if (u_distorted >= 0 && v_distorted >= 0 && u_distorted < cols && v_distorted < rows) {
image_undistort.at<uchar>(v, u) = image.at<uchar>((int) v_distorted, (int) u_distorted);
} else {
image_undistort.at<uchar>(v, u) = 0;
}
}
// 画图去畸变后图像
cv::imshow("image undistorted", image_undistort);
cv::waitKey();
}
return 0;
}
