Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am working in MATLAB

PLots

NOTE : Here, the data plotted is the track of x - position of the pixel at position (i,j) of the FIRST frame throughout all the frames. It means that the pixel at (23,87) in the first frame has, at the end of the sequence, x-position as 35 (as visible in the plot).

Here is some typical plots of x_pos for some different values of (i,j) . (i,j) refers to a pixel at (i,j) in the first frame not throughout all frames

For (i,j) = (23 ,87)

(i,j) = (42 ,56)

(i,j) = (67 ,19) enter image description here

share|improve this question
    
Can you tell us more about what these pixels represent? For me your graphs look like some complicated function without good predictable structure, like moves of the fly in a room. That is, as a human I can't predict where particular pixel will go further, only approximate direction. So first of all I'd want to know if it is predictable from training data at all or random error will be too large anyway. –  ffriend Jun 5 '14 at 22:17
1  
@ffriend The data is predictable , please see the input frames in the EDIT. The input frames are motion of an object for a short duration , so it is highly likely that the object is moving on a particular path. The graph looks a bit complicated due to the motion of camera along with the object motion –  Nishant Jun 6 '14 at 9:21
    
@Nishant I deleted my answer, I think it's better this way for your question/bounty. The summary of my (deleted) answer is just that to predict the value of a specific pixel your algorithm need look at the values (in the preceding frames) of the pixels around the one you are trying to predict. You really need to try to track the direction in which each object in the frame is moving. –  Max Jun 6 '14 at 9:43
    
@Nishant: I believe confusion partially comes from the question itself. It's not actually pixel that moves in frames, but instead some real-life object. Pixels are still and bound to specific frame, and it is our mind that links frames together and recognizes moving object on them. I believe the whole question may be simplified if you emphasize object trajectory part and not pixel part. –  ffriend Jun 6 '14 at 9:48
1  
@Max I am exactly doing what you have suggested. –  Nishant Jun 6 '14 at 10:46

2 Answers 2

So it's not about pixels in the image, but more about moving object, which makes the task much more tractable. Your data is indeed time series, thus time-aware algorithms are preferable. Markov models (in particular Markov chains and a bit more sophisticated Hidden Markov models) are classic examples of them.

However, your input is noisy because of camera instability. Thus, even better solution would be to use Kalman filter - model similar to HMMs, but with explicit notion of noise. It is widely used in robotics, navigation and similar areas to estimate current and predict future position of a vehicle based on inexact sensor data and historical information. Doesn't it sound similar to what you need?

I'm not big fun of Matlab, but it seems to have kalman function that implements mentioned filter.

share|improve this answer
1  
You are right , it is a time-series, I have tried the time-series toolbox in matlab. Can you see its algorithm and tell me if it is different than Markov models. The kalman filter sounds similar . I will check it out. –  Nishant Jun 6 '14 at 10:44
    
If you are talking about closeloop function, then no, it's not about Markov models, but instead about neural networks (probably recurrent). Recurrent NNs are also good approach, though it's sometimes hard to choose good hyperparameters for them. Anyway, you need to look for time-series based methods, not something still like normal multilayer perceptron or SVM. –  ffriend Jun 6 '14 at 14:36
    
BTW, if these methods fail, then most probably camera instability noise is too high and you need to run camera stabilization algorithms first. But this is different story that deserves separate question. –  ffriend Jun 6 '14 at 14:40
    
I have data on fixed camera too , but still I am no close near prediction with mean square error less that 2 for any of above said methods in the What I have Tried section of the question. –  Nishant Jun 6 '14 at 15:09
    
2 pixels from 100x100 images? Well, it seems like a very good result, actually. Anyway, I see that you have tried many different methods, but haven't worked out any of them. It's not enough to just use built-in function. As I outlined above, it's very important to tune up hyperparameters (e.g. number of layers and neurons in NNs), select good features and so on. You should really pay more attention to details of specific method, not to a wide variety of different methods. –  ffriend Jun 6 '14 at 15:30

A video is like a sequence of photos of real objects.
And real object, in front of a camera, can do only 2 different things:

  1. they stand still
  2. they move

If the pixel you are trying to predict are from a video, then you need to look ad how pixel are moving on screen, because object are moving on screen.

And this is how video codec compression works (H264, H265...) (clearly video compression algorithm are much more complex that just try to understand the direction of a pixel... :-) )

Here is some question/answer on stackoverflow that may help you:

share|improve this answer
    
TO be precise For each pixel of the first frame , I have 92 values of where they have been in the next frames so they are related . Please see the EDIT. –  Nishant Jun 6 '14 at 6:19
    
Please edit your answer so that it doesn't confuses others viewing this question. What you are saying is in contradiction with the problem part of my question. –  Nishant Jun 6 '14 at 6:28
1  
@Nishant I edited the answer, do you believe that the rest of the answer still apply? or did I totally misunderstood your problem? What I'm saying is that to predict the value of a specific pixel your algorithm need look at the values (in the preceding fames) of the pixels around the one you are trying to predict. –  Max Jun 6 '14 at 7:52
    
No , It still doesn't explains my question. I clearly understand what you are saying. You mean that the intensity at a particular position throughout all the frames is not related. And it is true. But I don't have that. I have the position of a particular pixel of the FIRST frame throughout all the frames. Please read the question again and refer to the NOTE of PLOT section. Then edit your answer accordingly as it has already confused those who have up voted it. –  Nishant Jun 6 '14 at 9:20
    
Thanks for the additional links , I have already calculated optical plow and have an object track, in a quick look I see that all these methods are for tracking object thus making it difficult to predict if the object size decreases, Nevertheless I will be looking into these n detail –  Nishant Jun 6 '14 at 16:45

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.