I want to split YCrCb to Y, Cr, and Cb channels.

Code works well but when I show the channels with imshow("Y", y) for each Y, Cr, Cb, all channels look grey.

Only Y channel must be grey the others are supposed to be colorful. Am I right? Or what is the problem with code?

    Mat RGBImage;
    RGBImage = imread("xx.jpg");    
    cvtColor(RGBImage, YCrCb, CV_RGB2YCrCb);

    vector<Mat> ycc_planes;
    split(YCrCb, ycc_planes);

    Mat y = ycc_planes[0];
    Mat Cr = ycc_planes[1];
    Mat Cb = ycc_planes[2];

My final goal is to apply mean filter to image's Y component and then to change it back to RGB with merging other components (Cr and Cb) . Finally I am going to get a blurry version of original RGB image. However my mean filter returns always grey blurry image. I though it may be so because of my Cr, Cb components are grey.

  • 1
    You're splitting a 3-channel image into 3 1-channel images. 1-channel images are grayscale, and will be displayed as gray-sh. The fact that their pixel values is actually a color information is irrelevant, they are still grayscale images. So, your code is OK, just your interpretation is incorrect. – Miki Oct 14 '15 at 19:29
  • What should I add to my code in order to make them colorful? @Miki – Blu Oct 14 '15 at 19:49
  • 1
    cvtColor(RGBImage, YCrCb, CV_BGR2YCrCb); maybe better – sturkmen Oct 14 '15 at 19:51
  • Oh, maybe I get it... you mean something like this? This is just a colormap, a visual effect. – Miki Oct 14 '15 at 19:59
  • Yes, and actually I apply mean filter to image's Y component and I need to change it back to RGB with merging other components (Cr and Cb) . Finally I am going to get a blurry version of original RGB image. However my mean filter returns always grey blurry image. I though it may so because of my Cr, Cb components are grey. That's why I asked this question. – Blu Oct 14 '15 at 20:04
up vote 6 down vote accepted

When you split a 3 channel image into 3 single channel image, each image is grayscale. The fact that they represent color information is irrelevant.

Original image:

enter image description here

YCrCb channels:

enter image description here

You can, however, apply a color effect:

enter image description here


You can blur the Y channel, and then merge the 3 single channels, and convert back to BGR:

enter image description here

Here the full code for reference:

#include <opencv2/opencv.hpp>
#include <vector>
using namespace std;
using namespace cv;

int main()
{
    Mat3b bgr = imread("path_to_image");

    Mat3b ycrcb;
    cvtColor(bgr, ycrcb, COLOR_BGR2YCrCb);

    vector<Mat1b> planes;
    split(ycrcb, planes);

    // Collage planes
    Mat1b collagePlanes(bgr.rows, bgr.cols*3);
    for (int i = 0; i < 3; ++i)
    {
        planes[i].copyTo(collagePlanes(Rect(i*bgr.cols, 0, bgr.cols, bgr.rows)));
    }

    Mat1b gray(bgr.rows, bgr.cols, uchar(128));

    // Y
    vector<Mat1b> vy(3);
    vy[0] = planes[0];
    vy[1] = gray.clone();
    vy[2] = gray.clone();
    Mat3b my;
    merge(vy, my);

    // Cr
    vector<Mat1b> vcr(3);
    vcr[0] = gray.clone();
    vcr[1] = planes[1];
    vcr[2] = gray.clone();
    Mat3b mcr;
    merge(vcr, mcr);

    // Cb
    vector<Mat1b> vcb(3);
    vcb[0] = gray.clone();
    vcb[1] = gray.clone();
    vcb[2] = planes[2];
    Mat3b mcb;
    merge(vcb, mcb);



    // Collage planes
    Mat3b collageColor(bgr.rows, bgr.cols * 3);
    my.copyTo(collageColor(Rect(0, 0, bgr.cols, bgr.rows)));
    mcr.copyTo(collageColor(Rect(bgr.cols, 0, bgr.cols, bgr.rows)));
    mcb.copyTo(collageColor(Rect(2 * bgr.cols, 0, bgr.cols, bgr.rows)));

    cvtColor(collageColor, collageColor, COLOR_YCrCb2BGR);


    ////////////////////////////

    // Blur Y
    boxFilter(planes[0], planes[0], CV_8U, Size(7,7));

    Mat3b blurred;
    merge(planes, blurred);
    cvtColor(blurred, blurred, COLOR_YCrCb2BGR);


    imshow("Original", bgr);
    imshow("YCrCb planes", collagePlanes);
    imshow("YCrCb planes colored", collageColor);
    imshow("Blurred", blurred);
    waitKey();


    return 0;
}
  • Wow!! Thank you so much for the answer I've learned a lot asking this question! =)) @Miki – Blu Oct 14 '15 at 20:44
  • Thank you too! @Berriel – Blu Oct 14 '15 at 20:45

As @Miki said in the comments, splitting a 3-channel image will give you 3 1-channel images, and 1-channel images are grayscale! Also, @sturkmen pointed out an important thing: OpenCV images are stored as BGR, so you need to use CV_BGR2YCrCb instead of CV_RGB2YCrCb in the cvtColor.

However, I see a lot of materials showing them (the individual channels) in a colorful manner, like this from Professor Hays.

If you want to see them that way, you need to set a fixed value to the other channels and merge them back. This way you can achieve the first row of the image below. The second row are the individual channels. For more info you can read this post or watch this video.

YCrCb sample

  • 1
    Nice blog btw, now I know what to link when SO users have problems installing OpenCV :D – Miki Oct 14 '15 at 20:38

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