C++图像处理之双边滤波

本文实例为大家分享了C++图像处理双边滤波的具体代码,供大家参考,具体内容如下

1、 近期在学习双边滤波相关知识,其原理如下(以后补上):

2 、灰度图双边滤波实现C++代码如下,网上大多数是基于8位灰度图和彩色图像的。(此次代码未经优化,可去除opencv依赖):

//灰度图双边滤波

void m_bilateralFilter(cv::Mat src,cv::Mat& dst,int radius,float sigma_r,float sigma_d)

{

if (src.empty())

return;

if (dst.empty())

{

dst = src.clone();

}

if (src.depth() == CV_16U){

for (int i = radius; i < src.rows - radius; i++)

for (int j = radius; j < src.cols - radius; j++)

{

float sum_1 = .0f, sum_2 = .0f;

for (int k = 0; k < 2 * radius - 1; k++)

for (int l = 0; l < 2 * radius - 1; l++)

{

int dis_x = radius - k;

int dis_y = radius - l;

int coord_x_image = i - radius + k;

int coord_y_image = j - radius + l;

float dis_spatial = dis_x*dis_x + dis_y*dis_y;

float dis_range = (src.at<unsigned short>(i, j)

- src.at<unsigned short>(coord_x_image, coord_y_image))*(src.at<unsigned short>(i, j)

- src.at<unsigned short>(coord_x_image, coord_y_image));

float c_tmp = exp(-dis_spatial /

(2 * sigma_d * sigma_d));

float s_tmp = exp(-dis_range /

(2 * sigma_r * sigma_r));

sum_1 += c_tmp*s_tmp*src.at<unsigned short>(coord_x_image, coord_y_image);

sum_2 += c_tmp*s_tmp;

}

dst.at<unsigned short>(i, j) = sum_1 / sum_2;

}

}

else if (src.depth() == CV_8U)

{

for (int i = radius; i < src.rows - radius; i++)

for (int j = radius; j < src.cols - radius; j++)

{

float sum_1 = .0f, sum_2 = .0f;

for (int k = 0; k < 2 * radius - 1; k++)

for (int l = 0; l < 2 * radius - 1; l++)

{

int dis_x = radius - k;

int dis_y = radius - l;

int coord_x_image = i - radius + k;

int coord_y_image = j - radius + l;

float dis_spatial = dis_x*dis_x + dis_y*dis_y;

float dis_range = (src.at<unsigned char>(i, j)

- src.at<unsigned char>(coord_x_image, coord_y_image))*(src.at<unsigned char>(i, j)

- src.at<unsigned char>(coord_x_image, coord_y_image));

float c_tmp = exp(-dis_spatial /

(2 * sigma_d * sigma_d));

float s_tmp = exp(-dis_range /

(2 * sigma_r * sigma_r));

sum_1 += c_tmp*s_tmp*src.at<unsigned char>(coord_x_image, coord_y_image);

sum_2 += c_tmp*s_tmp;

}

dst.at<unsigned char>(i, j) = sum_1 / sum_2;

}

}

}

3、目前是基于单通道图像,效果如下:

原图:

opencv 库的效果(cv::bilateralFilter(img_src, img_dst, 10,10 * 2, 10 / 2))

该程序的效果(m_bilateralFilter(img_src, img_dst, 5, 10 * 2, 10 / 2))

以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持。

以上是 C++图像处理之双边滤波 的全部内容, 来源链接: utcz.com/p/247337.html

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