I'd like to remove shadow before image binarization using OpenCV. I've tried Otsu Method and adaptive thresholding, however for images where there are large regions of shadow, these two methods will not give good results.

Any better solutions? Thanks in advance.

[Sample image]1

[Sample image]2

1 Answer 1


Since you didn't specify any language, I'll assume Python to illustrate.

A decent starting point might be taking the approach I show in this answer and expand it to work with multiple channels.

Something along the lines of

import cv2
import numpy as np

img = cv2.imread('shadows.png', -1)

rgb_planes = cv2.split(img)

result_planes = []
result_norm_planes = []
for plane in rgb_planes:
    dilated_img = cv2.dilate(plane, np.ones((7,7), np.uint8))
    bg_img = cv2.medianBlur(dilated_img, 21)
    diff_img = 255 - cv2.absdiff(plane, bg_img)
    norm_img = cv2.normalize(diff_img,None, alpha=0, beta=255, norm_type=cv2.NORM_MINMAX, dtype=cv2.CV_8UC1)
result = cv2.merge(result_planes)
result_norm = cv2.merge(result_norm_planes)

cv2.imwrite('shadows_out.png', result)
cv2.imwrite('shadows_out_norm.png', result_norm)

The non-normalized result looks as follows:

enter image description here

And the normalized result:

enter image description here

Example C++ implementation provided by @ruben-estrada-marmolejo

Added as requested, c/c++ code, withouth relaying on using namespace

//Compile with:
            //g++ example.cpp -o salida `pkg-config --cflags --libs opencv4`
            //Ruben Estrada Marmolejo
            //[email protected]
            //Original idea: https://stackoverflow.com/questions/44752240/how-to-remove-shadow-from-scanned-images-using-opencv/44752405#44752405 
            #include <iostream>

            void removeShadow(cv::Mat const& src, cv::Mat &result1_diff_img, cv::Mat &result2_norm_img){
                std::vector<cv::Mat> channels;
                cv::split(src, channels);

                cv::Mat zero = cv::Mat::zeros(src.size(), CV_8UC1);
                cv::Mat kernel;
                kernel = getStructuringElement(cv::MORPH_OPEN,cv::Size(1,1));
                cv::Mat diff_img[3];
                cv::Mat norm_img[3];
                for (int i =0; i<3;i++){
                cv::Mat dilated_img;
                cv::Mat bg_img;
                cv::medianBlur(channels[i], bg_img, 21);
                cv::absdiff(channels[i], bg_img, diff_img[i]);
                cv::normalize(diff_img[i], norm_img[i], 0, 255, cv::NORM_MINMAX, CV_8UC1, cv::noArray());
                std::vector<cv::Mat> R1B1 = { diff_img[0], zero, zero };
                std::vector<cv::Mat> R1G1 = { zero, diff_img[1], zero };
                std::vector<cv::Mat> R1R1 = { zero, zero, diff_img[2] };

                cv::Mat result1_B;
                cv::Mat result1_G;
                cv::Mat result1_R;

                cv::merge(R1B1, result1_B);
                cv::merge(R1G1, result1_G);
                cv::merge(R1R1, result1_R);

                cv::bitwise_or(result1_B, result1_G, result1_G);
                cv::bitwise_or(result1_G, result1_R, result1_diff_img);

                std::vector<cv::Mat> R2B1 = { norm_img[0], zero, zero };
                std::vector<cv::Mat> R2G1 = { zero, norm_img[1], zero };
                std::vector<cv::Mat> R2R1 = { zero, zero, norm_img[2] };

                cv::Mat result2_B;
                cv::Mat result2_G;
                cv::Mat result2_R;

                cv::merge(R2B1, result2_B);
                cv::merge(R2G1, result2_G);
                cv::merge(R2R1, result2_R);

                cv::bitwise_or(result2_B, result2_G, result2_G);
                cv::bitwise_or(result2_G, result2_R, result2_norm_img);


            int main(){

                cv::Mat img = cv::imread("test.jpg", cv::IMREAD_COLOR);
                std::cout << "Could not read the image: " << std::endl;
                return 1;
                cv::Mat result1;
                cv::Mat result2;
                removeShadow(img, result1, result2);
                imshow("Display window", result1);
                int k = cv::waitKey(0); // Wait for a keystroke in the window
                if(k == 's')
                cv::imwrite("result1.png", result1);
                return 0;


  • 2
    I have write exact same code in ObjectiveC but this code doesn't work for Color. It transforms to Black & White. Even Logo is transforming to Black & White. But my actual need to show Colored logo should be Colored. Just need to remove the Shadow Only. If you help that would be much appreciated. Thanks.
    – krunal
    Oct 25, 2018 at 11:39
  • @krunal You should post a new question then, and include some example input that causes issues as well as a MCVE in ObjectiveC.
    – Dan Mašek
    Oct 25, 2018 at 18:19
  • @DanMašek Any luck? :\
    – jtlz2
    Feb 5, 2019 at 8:52
  • 1
    @jtlz2 Uh, any luck with what exactly?
    – Dan Mašek
    Feb 5, 2019 at 17:00
  • Apologies - was meant for @krunal... :/ I wanted to know whether they had been able to get it working for colour
    – jtlz2
    Feb 5, 2019 at 18:06

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