# Stereo vision: Depth estimation

I am working on Stereo vision task and I would like to get the distance between stereo vision cameras and the object. I am using Matlab with Computer Vision System Toolbox.
I have calibrated cameras with using "Camera Calibration Toolbox for Matlab" thus I have Intrinsic parameters of left and right camera and Extrinsic parameters (position of right camera wrt left camera). I have also a pair of rectified pictures and thier disparity map. For estimation of disparity I have used Matlab function disparity(). I know the baseline and the focal length of cameras but my results are still wrong.

``````baseline = 70 mm
focal length = 25 mm
disparity = 60 pixels
---------------------
depth = baseline * focal length / disparity = 70 * 25 / 60 = 29 mm
``````

But I know that the distance is cca 600 mm. Is this formula right? What about the units? `mm * mm / pixel != mm`. And especially I would like to use Camera matrix (Intrinsic parameters) for calculation but I didn't figure out how. I would be thankful for any hint.

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Like you said, you have to convert the unit into mm. And for that you need this formulas

``````z = (b*F) / (d*s)

mm = (mm * mm) / (pixel * (mm/pixel))
``````

Where

• z = depth in mm
• b = baseline in mm
• F = focal length in mm
• d = depth in pixel
• s = sensor size in mm/pixel. (Normally it provide in um, so do conversion before).

EDIT

Sometime your focal is in pixel so you don't need to use the sensor size. So just use your formula :

``````z = b*F / d
mm = mm * pixel / pixel
``````
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You can have detail of this formula here –  Alexandre Bizeau Nov 13 '13 at 15:11
Careful with your bracketing there; do you mean `z = b*F/d*s` or `z = b*F / (d*s)`? –  Rody Oldenhuis Nov 13 '13 at 15:12
You are right and the best is `z = (b*F) / (d*s)` –  Alexandre Bizeau Nov 13 '13 at 15:14
Thanks @Alexandre this part is solved but unfortunately results are not better. Because I am sure about baseline, focal length and pixel size, disparity estimation probably isn't so accurate. And please do you know how to implement Camera matrix into this calculation? –  PrincAm Nov 13 '13 at 15:18
@PrincAm I think what you are looking for is that : Homography, this article explain a little, but try to search for homography for more informations. And maybe you disparity map isn't good. Is it looking well ? –  Alexandre Bizeau Nov 13 '13 at 15:49