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I'm doing a project that use image processing techniques to identify different objects and their lengths. I go through many examples in javaCV as well as OpenCV. But unfortunately I was unable to identify T shape of polygon.

I try to use following rectangle identification method but I failed it.

public static CvSeq findSquares( final IplImage src,  CvMemStorage storage)

CvSeq squares = new CvContour();
squares = cvCreateSeq(0, sizeof(CvContour.class), sizeof(CvSeq.class), storage);

IplImage pyr = null, timg = null, gray = null, tgray;
timg = cvCloneImage(src);

CvSize sz = cvSize(src.width() & -2, src.height() & -2);
tgray = cvCreateImage(sz, src.depth(), 1);
gray = cvCreateImage(sz, src.depth(), 1);
pyr = cvCreateImage(cvSize(sz.width()/2, sz.height()/2), src.depth(), src.nChannels());

// down-scale and upscale the image to filter out the noise
cvPyrDown(timg, pyr, CV_GAUSSIAN_5x5);
cvPyrUp(pyr, timg, CV_GAUSSIAN_5x5);
cvSaveImage("ha.jpg",   timg);
CvSeq contours = new CvContour();
// request closing of the application when the image window is closed
// show image on window
// find squares in every color plane of the image
for( int c = 0; c < 3; c++ )
    IplImage channels[] = {cvCreateImage(sz, 8, 1), cvCreateImage(sz, 8, 1), cvCreateImage(sz, 8, 1)};
    channels[c] = cvCreateImage(sz, 8, 1);
    if(src.nChannels() > 1){
        cvSplit(timg, channels[0], channels[1], channels[2], null);
        tgray = cvCloneImage(timg);
    tgray = channels[c];
    // try several threshold levels
    for( int l = 0; l < N; l++ )
    //             hack: use Canny instead of zero threshold level.
    //             Canny helps to catch squares with gradient shading
        if( l == 0 )
    //                apply Canny. Take the upper threshold from slider
    //                and set the lower to 0 (which forces edges merging)
                      cvCanny(tgray, gray, 0, thresh, 5);
    //                 dilate canny output to remove potential
    //                // holes between edge segments
                      cvDilate(gray, gray, null, 1);
    //                apply threshold if l!=0:
                      cvThreshold(tgray, gray, (l+1)*255/N, 255, CV_THRESH_BINARY);
        //            find contours and store them all as a list
                      cvFindContours(gray, storage, contours, sizeof(CvContour.class), CV_RETR_LIST, CV_CHAIN_APPROX_SIMPLE);

                      CvSeq approx;

        //            test each contour
                      while (contours != null && !contours.isNull()) {
                      if (contours.elem_size() > 0) {
                           approx = cvApproxPoly(contours, Loader.sizeof(CvContour.class),storage, CV_POLY_APPROX_DP, cvContourPerimeter(contours)*0.02, 0);
                    if( approx.total() == 4
                            Math.abs(cvContourArea(approx, CV_WHOLE_SEQ, 0)) > 1000 &&
                        cvCheckContourConvexity(approx) != 0
                        double maxCosine = 0;
                        for( int j = 2; j < 5; j++ )
            // find the maximum cosine of the angle between joint edges
                                                double cosine = Math.abs(angle(new CvPoint(cvGetSeqElem(approx, j%4)), new CvPoint(cvGetSeqElem(approx, j-2)), new CvPoint(cvGetSeqElem(approx, j-1))));
                                                maxCosine = Math.max(maxCosine, cosine);
                         if( maxCosine < 0.2 ){
                                 CvRect x=cvBoundingRect(approx, l);
                                 if((x.width()*x.height())<5000 ){
                                     System.out.println("Width : "+x.width()+" Height : "+x.height());
                             cvSeqPush(squares, approx);
                contours = contours.h_next();
        contours = new CvContour();
return squares;

Please can some help me to modify this method to identify T shapes from a image. The input image is like this.

enter image description here

This is the T shape that I have to identify

enter image description here

share|improve this question
Is that your input image? –  ArtemStorozhuk Jun 28 '12 at 8:25
which part of this image you need to identify? –  Abid Rahman K Jun 28 '12 at 10:34
I have updated the question now it contains the details about it. –  user1465195 Jun 30 '12 at 15:58

3 Answers 3

up vote 6 down vote accepted

I found solution to your problem:

  • Convert image to grayscale:

grayscale image

  • Do a threshold (convert to 1bit image):

2bit image

  • Find contours and fill them:

filled image

Hint: to fill contours in OpenCV use -1 as thickness parameter in drawContours function.

  • Do a dilatation and after this erosion with the same kernel:

result image

And that's it! After this it is not a problem for you to find your T-shaped figure on the image!

Unfortunatelly I don't know JavaCV but I can share with you c++ code:

Mat src = imread("in.jpg"), gray;

cvtColor(src, gray, CV_BGR2GRAY);

threshold(gray, gray, 230, 255, THRESH_BINARY_INV);

vector<Vec4i> hierarchy;
vector<vector<Point> > contours;

findContours(gray, contours, hierarchy, CV_RETR_LIST, CV_CHAIN_APPROX_SIMPLE);

gray = Scalar::all(255);
for (size_t i=0; i<contours.size(); i++)
    drawContours(gray, contours, i, Scalar(0), -1);

Mat element = getStructuringElement(MORPH_RECT, Size(2, 2), Point(1, 1));
dilate(gray, gray, element);
erode(gray, gray, element);

imshow("window", gray);

Hint: if you want you can convert this code to JavaCV. To do this read this tutorial.

share|improve this answer
So how can I access the lengths of this type of polygon ? –  user1465195 Jul 2 '12 at 7:23
@LBNCons First of all you have to identify this polygon. There are many ways how you can do that. After polygon is detected than just use approxPolyDP function. –  ArtemStorozhuk Jul 2 '12 at 8:42
@Astor Does approxPolyDP method provide exact 8 points ? –  Gum Slashy Jul 9 '12 at 12:06
@GumSlashy yes, it does. –  ArtemStorozhuk Jul 9 '12 at 12:07
@Astor I have try on approxPolyDP mrthod it returns a CvSeq. So in that how can I extract the cordinates of the edges ? Could you please explain it. And I have try to use cvCvtSeqToArray() method as well following question regarding that. stackoverflow.com/questions/11464759/… –  Gum Slashy Jul 15 '12 at 5:56

You might be better of finding contours and using CvApproxPoly(). You can find a good example of how to use this function to find rectangles here and adapt it to find your T shapes. This example is created using OpenCV and written in c++.

To go through all the points in a sequence:

for (int i = 0; i < cornerPoints->total; i++) {
 CvPoint *cornerPoints = (CvPoint*) cvGetSeqElem(cornerPoints, i);
share|improve this answer
Please can you provide some simple code example for this –  user839406 Jun 30 '12 at 15:16
I went througt the CvApproxPoly() method but it also returns a CvSeq. But I have to extract the cordinates of edges on the polygon –  Gum Slashy Jul 15 '12 at 5:57
If you want to make a CvPoint out of all the points on the contour you can use a for loop to go through all the points. I added this to my answer. –  diip_thomas Jul 16 '12 at 8:10

sounds like homework though

the pre-processing @Astor bring about is definitely helpful. but I somewhat still think that this shape recognition is strongly connected with Image Processing: Morphology

you could prepare a template T-shaped and then "convolute?" the template with the pre-processed result. I can't remember more details, just survey on TAG Morphology and Convolution

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