Preprocess the image using cv::inRange() with the necessary color bounds to isolate red. You may want to transform to a color-space like HSV or YCbCr for more stable color bounds because chrominance and luminance are better separated. You can use cvtColor() for this. Check out my answer here for a good example of using
So, the basic template would be:
inRange(src, Scalar(lowBlue, lowGreen, lowRed), Scalar(highBlue, highGreen, highRed), redColorOnly);
EDIT : Just use the trackbars to determine the color range you want to isolate, and then use the color intervals you find that work. You don't have to constantly use the trackbars.
So, for a complete example of the template here you go,
I created a simple (and ideal) image in GIMP, shown below:
Then I created this program to filter all but the red squares:
using namespace std;
using namespace cv;
Mat redFilter(const Mat& src)
assert(src.type() == CV_8UC3);
inRange(src, Scalar(0, 0, 0), Scalar(0, 0, 255), redOnly);
int main(int argc, char** argv)
Mat input = imread("colored_squares.png");
Mat redOnly = redFilter(input);
// detect squares after filtering...
NOTE : You will not be able to use these exact same filter intervals for your real imagery; I just suggest you tune the intervals with trackbars to see what is acceptable.
The output looks like this:
Voila! Only the red square remains :)