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I would like to know how to convert an RGB image into a black & white (binary) image.

After conversion, how can I save the modified image to disk?

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5 Answers 5

AFAIK, you have to convert it to grayscale and then threshold it to binary.

1. Read the image as a grayscale image If you're reading the RGB image from disk, then you can directly read it as a grayscale image, like this:

// C
IplImage* im_gray = cvLoadImage("image.jpg",CV_LOAD_IMAGE_GRAYSCALE);

// C++ (OpenCV 2.0)
Mat im_gray = imread("image.jpg",CV_LOAD_IMAGE_GRAYSCALE);

2. Convert an RGB image im_rgb into a grayscale image: Otherwise, you'll have to convert the previously obtained RGB image into a grayscale image

// C
IplImage *im_rgb  = cvLoadImage("image.jpg");
IplImage *im_gray = cvCreateImage(cvGetSize(im_rgb),IPL_DEPTH_8U,1);

// C++
Mat im_rgb  = imread("image.jpg");
Mat im_gray;

3. Convert to binary You can use adaptive thresholding or fixed-level thresholding to convert your grayscale image to a binary image.

E.g. in C you can do the following (you can also do the same in C++ with Mat and the corresponding functions):

// C
IplImage* im_bw = cvCreateImage(cvGetSize(im_gray),IPL_DEPTH_8U,1);
cvThreshold(im_gray, im_bw, 128, 255, CV_THRESH_BINARY | CV_THRESH_OTSU);

// C++
Mat img_bw = im_gray > 128;

In the above example, 128 is the threshold.

4. Save to disk

// C

// C++
imwrite("image_bw.jpg", img_bw);
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Depending on the application you may want to do a dithering rather than a simple threshold. – Mark Ransom Sep 11 '12 at 16:45

Use cv2 and Python:

1- Grayscale Image

import cv2
im_gray = cv2.imread('grayscale_image.png', cv2.CV_LOAD_IMAGE_GRAYSCALE)

2- Convert image to Binary

(thresh, im_bw) = cv2.threshold(im_gray, 128, 255, cv2.THRESH_BINARY | cv2.THRESH_OTSU)

3- Store to Disck

cv2.imwrite('bw_image.png', im_bw)
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I do something similar in one of my blog postings. A simple C++ example is shown.

The aim was to use the open source cvBlobsLib library for the detection of spot samples printed to microarray slides, but the images have to be converted from colour -> grayscale -> black + white as you mentioned, in order to achieve this.

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I would like to see your this work : the images have to be converted from colour -> grayscale -> black + white as you mentioned, Thanks – RidaSana Oct 30 '11 at 14:54
The link mentioned above doens't work, this one does : link – Yeraze Aug 20 '12 at 18:42

A simple way of "binarize" an image is to compare to a threshold: For example you can compare all elements in a matrix against a value with opencv in c++

cv::Mat img = cv::imread("image.jpg", CV_LOAD_IMAGE_GRAYSCALE); 
cv::Mat bw = img > 128;

In this way, all pixels in the matrix greater than 128 now are white, and these less than 128 or equals will be black

Optionally, and for me gave good results is to apply blur

cv::blur( bw, bw, cv::Size(3,3) );

Later you can save it as said before with:

cv::imwrite("image_bw.jpg", bw);
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Is JPEG really the right format for B&W???? – user1741137 May 5 at 18:35
I don't know... I think its depends in what type of image are you saving. For photographs (i was working with photos) I think is the right format. – alwar May 11 at 14:26
Well, the problem with JPEG is that it introduces artefacts and degrades the quality of your picture somewhat. I would use PNG or for really small files TIFF with CCITT Fax 4 compression. – user1741137 May 11 at 18:21
@user1741137, How to save a Mat as a TIFF with CCITT Fax 4 compression with OpenCV? Using Highgui.imwrite("sample.tiff", binaryImage); I always get a TIFF with LZW compression and 8-bit color depth - see my question here. – Alexander Abakumov Jun 17 at 11:24

This seemed to have worked for me!

Mat a_image = imread(argv[1]);

cvtColor(a_image, a_image, CV_BGR2GRAY);
GaussianBlur(a_image, a_image, Size(7,7), 1.5, 1.5);
threshold(a_image, a_image, 100, 255, CV_THRESH_BINARY);
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