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I'm trying to generate a real-time depth map from an uncalibrated stereo camera. I know how the algorithm roughly has to look like:

  1. detect keypoints (SURF, SIFT)
  2. extract descriptors (SURF,SIFT)
  3. compare and match descriptors (BruteForce, Flann based approaches)
  4. find fundamental mat (findFundamentalMat()) from these pairs
  5. stereoRectifyUncalibrated()
  6. StereoSGBM

I found this algorithm here: 3d reconstruction from 2 images without info about the camera

I also found a similar implementation: Github 3d reconstruction project

And this tutorial: Stereo 3D reconstruction with OpenCV using an iPhone camera.

With the help of those three sources, I put together a test implementation:

    # I size down the original frames
    IMG_L = cv2.resize(IMG_L,(int(WINDOW_WIDTH/3),int(WINDOW_HEIGHT/3)))
    IMG_R = cv2.resize(IMG_R,(int(WINDOW_WIDTH/3),int(WINDOW_HEIGHT/3)))

    window_size = 15
    left_matcher = cv2.StereoSGBM_create(
        minDisparity=0,
        numDisparities=16,
        blockSize=11,
        P1=8 * 3 * window_size ** 2,
        P2=32 * 3 * window_size ** 2,
        disp12MaxDiff=1,
        uniquenessRatio=3,
        speckleWindowSize=1,
        speckleRange=1,
        preFilterCap=63,
        mode=cv2.STEREO_SGBM_MODE_SGBM_3WAY
    )

    right_matcher = cv2.ximgproc.createRightMatcher(left_matcher)

    lmbda = 80000
    sigma = 1.2
    visual_multiplier = 1.0

    wls_filter = cv2.ximgproc.createDisparityWLSFilter(matcher_left=left_matcher)
    wls_filter.setLambda(lmbda)
    wls_filter.setSigmaColor(sigma)

    displ = left_matcher.compute(IMG_L, IMG_R)
    dispr = right_matcher.compute(IMG_R, IMG_L)
    displ = np.int16(displ)
    dispr = np.int16(dispr)
    filteredImg = wls_filter.filter(displ, IMG_L, None, dispr)  # important to put "imgL" here!!!

    filteredImg = cv2.normalize(src=filteredImg, dst=filteredImg, beta=0, alpha=255, norm_type=cv2.NORM_MINMAX);
    filteredImg = np.uint8(filteredImg)

With this piece of code, I generate this output: Video

Now you probably see my problems:

  1. My depth map is flickering and is not (how I call it) "colour consistent"
  2. The quality of the depth map is very bad (smudgy)
  3. It is too slow and therefore not usable in real-time

For the first problem, I would need a good solution to get rid of this flickering. Is there maybe a way to take the previous depth map to account?

For the second problem, I probably have an idea of what I should do: I need to rectify my stereo images (as the description of the algorithm suggests). In order to rectify those images, I would need to use SIFT or SURF. But I read that SIFT and SURF are too slow to run in real time, so I probably need some other kind of solution?

I will focus on the first and second problems before I try to optimize the program, so you can for now ignore my third problem (for now).

Thanks for your help :)

  • Try ORB for a faster alternative to SIFT/SURF. There will be slightly more false positives though. The flickering is hard to avoid when the scene does not have much texture in some areas. – Richard K. Wade Jun 5 at 11:54
  • Ok, thanks. Yes, the video comes from an endoscope, so a lot of textureless tissue and blood... I'll try and have a closer look at ORB. – Xen0n Jun 5 at 12:09

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