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I am working on videos in simulink.As we know that multimedia file block reads one frame at a time so when I will attach it with matlab function block it should read one frame at a time with imread command. If I double click the matlab function block (as shown at then you will see that I have to give the name of the function as written in matlab mfile along with the input; which in this case is video(named as convid.avi). I am reading one frame at a time but I have given the whole video as an argument to the matlab function.This is the problem how can I resolve it.What should be given as an argument in matlab function block rather than the whole video.I have also uploaded my model at The code which I am using for vidfunc is:

function h=vidfunc(u)
a=imread(u); % read frame
BW = edge(a,'sobel'); %sobel edge detection
[H,thetaa,rhoo]=hough(BW); % Hough Transform
P = houghpeaks(H,6,'threshold',ceil(0.5*max(H(:))));
figure,imshow(I),hold on
for k = 1:length(lines) % Draw lines
 xy = [lines(k).point1; lines(k).point2];
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up vote 1 down vote accepted

It looks like the meat of the work done in this "Simulink" model is actually being performed by your MATLAB function. So the answer to this question is going to largely rely on what that function is actually doing. Specifically, what is the expected input to vidfunc, and what is this function's output? I suspect that this function may need to be revised to fit into your model.

To debug your model, it's useful to think about what the signal output is from each block. At each time step, your From Multimedia File block will output a single image frame, which according to the doc looks to be structured as an

M-by-N-by-P color video signal where P is the number of color planes.

Moving downstream, we next come to the Color Space Conversion block, which in this case looks like it will most likely output an image frame in the form of an M-by-N matrix (where each element of the matrix corresponds to the image's intensity at that pixel).

Now we come to the interesting part -- the MATLAB Fcn block. As we just saw, the input to this block will be an M-by-N matrix representing a single image frame. When you look in the parameter dialog box for the MATLAB Fcn block, the input to this block is represented by the variable u. Therefore, to execute the vidfunc function on the image frame being input to this block, you would simply enter vidfunc(u) for your MATLAB function.

Now, based on the input going to the MATLAB Fcn block, and the fact that you have a Video Viewer block connected to the output, vidfunc should be structured such that it operates on a single image frame as its input and outputs another single image frame. If vidfunc is not structured in this way, you will need to edit it (or just re-implement the same functionality using Simulink blocks).

That said, let's assume that vidfunc is also returning an M-by-N matrix representing a processed image frame. You will want to set the Output Dimensions parameter for your MATLAB Fcn block to -1 to indicate that the output will have the same dimensions as the input. Also, (as indicated in the doc) you will want to make sure Collapse 2-D results to 1-D is unchecked or else your image output will be in the form of one long vector rather than an M-by-N matrix.

Provided that vidfunc is structured correctly, this should solve your problem.

NOTE: To make your life a lot easier, I would strongly suggest displaying the signal data type and dimensions in your Simulink model. This can help to avoid a lot of confusion. This doc describes exactly how to do this.


After looking at your code, this confirms my suspicion that the inputs/outputs of vidfunc are inconsistent with what your Simulink model expects. The way that you proceed is highly dependent on what your own design constraints are and what you actually want out of this system. Basically, your Simulink model and MATLAB function disagree... which one is right? I'll give some general thoughts based on my best guesses at what you're aiming for.

First, Simulink is passing an image (in the form of an M-by-N matrix) into vidfunc. This means that vidfunc no longer needs to load an image at the start of the code. So I believe that you could update the first few lines of code to be as such:

function h=vidfunc(a)
BW = edge(a,'sobel'); %sobel edge detection

See that now vidfunc is taking the actual image (not the filename that contains the image) as its input. Basically, you are removing the a=imread(u); line and jumping right in to processing a.

The other issue is the output of vidfunc. Simulink is expecting the output to be an image, but it is not. I'm not 100% sure what h is supposed to be in this code (when I first glanced at your code I thought these were handles to line objects but that doesn't seem to be the case). It looks to possibly be the y coordinate of the endpoint of one of the houghlines. Nevertheless, it's not what your Simulink model is expecting. This one is not as straight-forward to fix. Possibly you could try to use getframe to grab an image from the plot of your lines.

I actually feel that the best advice that I can give to you is to just scrap the MATLAB function and implement everything in Simulink. I think this will be a lot easier than trying to get vidfunc to play nicely with your model. vidfunc does not actually contain that much code, so this should not be too difficult of a task for you. Another benefit is that at the end of this process you'll have a nice Simulink model that explicitly shows all of the image processing steps that you are taking.

I believe that all of the image processing that you are doing with MATLAB functions can also be done with Simulink blocks (see the Simulink Blocks section of this doc).

Good luck.

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@ShayanAli - Quickly glancing at your code, I see two issues. 1) vidfunc is taking an image file name as input, and 2) it is returning an array of handles to line objects. Based on the way your Simulink model is structured, vidfunc needs to be rewritten to take the actual image as its input (in your case this is variable a). Also, it would need to output an image. So this makes me wonder, if basically all of the work is being done by your function, why are you trying to use this in Simulink? What is the output that you want from this whole process? This will greatly affect how to proceed – grungetta Sep 29 '12 at 21:17
Okay, one issue may be that Hough Lines is going to output the coordinates of the line relative to the ROI not to your original images. You can confirm this by using the output of Define ROI as the image input to Draw Shapes and seeing if the lines are now drawn in the correct place. If this is the issue, then this just means you need to add an offset to the output of Hough Lines to "convert" from ROI coordinates to the original images coordinates. – grungetta Oct 10 '12 at 17:58
In order to find more lines, you'll need to increase the Maximum number of local maxima parameter in your Find Local Maxima block. Keep in mind that this may require you to change your Selector blocks, as well, to accommodate the new dimensions of the Find Local Maxima output, as this output will now be a two-dimensional array. – grungetta Oct 10 '12 at 18:09
This should be available in 2009, but you have to enable it. Read through this doc for the MATLAB 2009a version of the Draw Shapes block). As I said in my last comment, you have to open the parameter dialog for the block, and select Specify region of interest via port for the Draw shapes in field. – grungetta Oct 12 '12 at 12:12
You might just have the ordering mixed up on the ROI input to Draw Shapes According to the doc, the input is a "4-element vector of integers [x y width height], that define a rectangular area in which to draw the shapes. The first two elements represent the one-based coordinates of the upper-left corner of the area. The second two elements represent the width and height of the area." So it's looking for [x y width height] and I think you are doing [y x height width]. – grungetta Oct 13 '12 at 15:10

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