# Calculate actual velocity using optical flow

How can I find the actual real world velocity of an object using the optical flow information obtained from two images? Can anyone help me out?

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You would have to know it's distance from the camera and direction of movement (diagonally away from camera makes it move slower in the X direction, even though it could be going fast). If you know those variables, then the velocity is actually obtainable. –  Blender Feb 7 '11 at 6:08
No offense intended, but computer vision is such a complex subject, a question so short can't be answered. Try narrow it down, at least describe the scenery and the object you want to track. –  Paulo Scardine Feb 7 '11 at 6:20
+1 @PauloScardine. Also, as @Blender points out, you'll need a lot of metadata about the x,y,z coordinates of the target object as it needs to be distinguished from other possibly moving components in your images. Now, it becomes a 2D to 3D image viewing problem. Perhaps this will help –  inspectorG4dget Feb 7 '11 at 6:44
Duplicate of stackoverflow.com/questions/4872570/… (same user) –  etarion Feb 7 '11 at 9:12

as the commentators have already said we need some more information on your problem. Basically: Yes, it is possible to calculate real world velocity from an image

But all of this depends on the following things:

• Is your camera fixed or is it maybe even moving
• Do you try to calculate velocity of any object moving anywhere on the scene or do you have a fixed lane, like a street filmed with a mounted camera and objects (cars) will always move along one lane?
• If the latter, can you do measurements on the street in real world? Like marking points on the boardwalk (permanently or simply to find out to how long a distance of x meters in real world will appear on your camera image in pixels)
• if you cannot do those measurements in the real world scene you will need to provide information on angle of the camera to the scene/ground level, distance of the camera to the scene, and parameters of your camera.

For calculating the velocity of any tracked object on the scene you'd probably need all the latter stuff to really calculate the distances in the scene. But this is much more difficult.

If you have the case of a fixed lane where you i.e. want to measure a car's velocity I would prefer the method with measuring or marking points in real world.

Because if have that information:

``````x m = y px
``````

and an object has moved `y px` in `t` time (you get that time by the refreshment rate of your calculation) you can calculate how many pixels it will have moved in 1 second and since you know how many pixels are one meter you'd know its speed in meters per second (or any other unit you prefer.

You could also just set your two marks in the scene and simply measure, how many frames (and therefore how much time) the object needed to move from one marking to the other. This would give you a more averaged velocity since if you do calculations in small time steps you might get a noisy result due to segmentation problems or simply because changes are fairly small between the shorter the measured timespan is.

Well and for segmentation you could simply try a substraction method. Substract two or three following frames from each other. Moving objects (and therefore image parts that have changed) will result in non-zero values whereas color values of a steady image part should substract to something about 0.

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Let me explain the scenario. We are actually sitting inside a vehicle, a car for example. Then using a camera we will be taking a photo of any object. That object is on the road. The fixed distance between the camera and the road will be provided. So by taking successive images from the camera, we have to calculate the speed of the vehicle. How is that possible? –  Rony Varghese Feb 21 '11 at 6:03

This method is quite long but in short:

What you can do is set a value that specifies the distance of object from camera.

Then capture first frame and save it somewhere.

Capture last frame and save it somewhere.

Apply threshold on both the frames.

Trim all the pixels from left of first frame and then do the same for second frame.