# MATLAB won't extract first row & column because of matrix dimensions

I am tracking an object that is thrown in the air, and this object governs a parabolic pattern. I'm tracking the object through a series of 30 images. I managed to exclude all the background and keep the object apparent, then used its centroid to get its coordinates and plot them. Now I'm supposed to predict where the object is going to fall, so I used polyfit & polyval. The problem is, MATLAB says:

??? Index exceeds matrix dimensions.

Now the centroid creates its own structure with a row and two columns. Everytime the object moves in the loop, it updates the first row only.

Here is part of the code:

``````For N = 1:30
.
.
.
x = centroid(1,1); % extract first row and column for x
y = centroid(1,2); % extract secnd row and column for x
plot_xy = plot(x,y)
set(plot_xy,'XData',x(1:N),'YData',y(1:N));
fitting = polyfit(x(1:N),y(1:N),2);
parabola = plot(x,nan(23,1));
evaluate = polyval(fitting,x);
set(parabola,'YData',evaluate)
.
.
end
``````

The error message I get is:

`??? Index exceeds matrix dimensions.`

It seems that (1:N) is causing the problems. I honestly do not know why, but when I remove N, the object is plotted along with its points, but polyfitting won't work. It gives me an error saying:

``````Warning: Polynomial is not unique; degree >= number of
data points.
> In polyfit at 72
``````

If I made it (1:N-1) or something, it plots more points before it starts giving me the same error (not unique ...). But I can't remove (1:N), because I have to evaluate the coefficients of the polynomial in each loop (each value of N), so what's the solution?

Edit 2 :

This is more of my code

``````for N = 1:30
hold on
I = figure.image.(['j' num2str(N)]);
bw = (I);
imshow(bw)
ss = bwlabel(bw);
s = regionprops(bw,'centroid');
centroids = cat(1, s.Centroid);
hold(imgca,'on')
plot(imgca,centroids(1,1), centroids(1,2),'r*')
x = centroids(1,1);
y = centroids(1,2);
points = plot(x,y,'bo',x,y,'rx');
hold on;

for N>3
C1 = centroids(1,1);
C2 = centroids(1,2);
set(points,'XData',C1,'YData',C2);
poly = polyfit(C1,C2,2);
parabola = plot(C1,nan(size(centroids,1),1));
pval = polyval(poly,x);
set(parabola,'YData',pval);
pause(0.5)
end
end
``````

Edit 3

Code to display object distination:

``````poly = polyfit(C1,C2,2);
g = roots(poly);
v = max(g)
plot(xPlot,polyval(poly,xPlot),'y')
plot(v,'go')
``````

The parabola line is plotted correctly due to xPlot, but for `g` (the prediction), it all goes wrong... Am I using the wrong syntax to get the max value?

I also realized if I put `plot(g,'g--')` instead of v, I get: Wonder if I can get this horizontal instead of vertical. Then I will have a line with a circle where the parabola is predicted to stop.

-
When you set "x=centroid(1,1);", x becomes a single-element scalar. Likewise for y. I'm guessing what you probably wanted is "x=centroid(1:N,1);", which gives you the first column of array 'centroid' from 1st to Nth element. You can then replace subsequent calls of "x(1:N)" with just "x" or "x(:)". –  JS Ng May 16 '10 at 4:06
Also, "set(plot_xy,'XData',x(1:N),'YData',y(1:N));" seems extraneous. If you've already plotted 'plot_xy' with x and y, which are supposed to be N-element vectors, there is no need to set the XData and YData properties again. –  JS Ng May 16 '10 at 4:11
@JS, I think you should put your comments as the answer. –  yuk May 16 '10 at 4:25
ZaZu: I've updated my answer for Edit #3. See below. –  JS Ng May 19 '10 at 7:35

This is how your code should look like, if I correctly understand what you want to do:

``````%# if there is only one centroid per image, preassign centroid array like this
centroids = zeros(30,1); %# case A

%# if there can be any number of centroids per image, preassign like this
centroids = cell(30,1); %# case B

for N=1:30
hold on
I = figure.image.(['j' num2str(N)]);
bw=(I);
imshow(bw)
ss = bwlabel(bw);
s = regionprops(bw,'centroid');

%# for case A
centroids(N,:) = cat(1, s.Centroid);
%# for case B
centroids{N} = cat(1,s.Centroid);

hold(imgca,'on')

%# case A
plot(imgca,centroids(N,1), centroids(N,2),'r*')
%# case B
if ~isempty(centroids{N})
plot(imgca,centroids{N}(:,1), centroids{N}(:,2), 'r*');
end

%# I don't think the following lines do anything useful
x=centroids(1,1);
y=centroids(1,2);
points=plot(x,y,'bo',x,y,'rx');

%# update plots
drawnow

%# you can only do the fitting once you collected all centroids

end

%# case A - do nothing b/c centroids is already numeric
%# case B - catenate centroids to make a numeric array with 2 columns
centroids = cat(1,centroids{:});

C1=centroids(:,1);
C2=centroids(:,2);
%#set(points,'XData',C1,'YData',C2);
poly=polyfit(C1,C2,2);
%# you can use the output of polyval directly as y-coordinate
parabola=plot(C1,polyval(poly,C1));
``````
-
The code gives me this error when I run it in case A : `???subscripted assignment dimension mismatch.` in case B, it works perfectly but I got two problems. The x and y you mentioned that may not be useful are actually there to plot each ball's current and previous position and keep it there ... When I comment out x y and their plotting, I get the ball to move and then the parabola is shown AFTER it finishes ... When I keep the x and y + plotting, I get `??? Index exceeds matrix dimensions.` ... any ideas ? –  NLed May 17 '10 at 11:35
Ok I got the x and y to not show the index exceeds matrix dimensions .. So it works now, all I need to do is put the parabola plotting in a loop so that it shows (live-time) as the object is being plotted along the screen –  NLed May 17 '10 at 11:48
Okay I got the x and y not to show that index exceeds matrix dimensions .. I just changed how it extracts rows n cols from the array... Now what I need is, whenever a new image is posted (position change when N+1), I want the previous position plotted by x and y to stay ... this works only after the 23 loop is completed via the command `set(points,'XData',C1,'YData',C2);` that you commented out .. but when I put the code you have there that is after the loop, IN my loop of 1 to 23, I get `??? Cell contents reference from a non-cell array object. ` ... any ideas ? ` –  NLed May 17 '10 at 11:55
Okay, this code `centroids = cat(1,centroids{:})` is the one causing the previous error (non-cell array object) .. Im guessing its because of the {:} ?? –  NLed May 17 '10 at 11:59
@zazu: did you check whether you're doing case A or case B? The `cat` line is only for case B –  Jonas May 17 '10 at 15:04

I suspect that you may be confusing yourself with x and y and you might do better without them. Here's how I would rewrite your code, if I have understood your intentions correctly. Note especially the rewritten polyfit call. I also think that you have hard-coded the call to nan incorrectly, so I have 'corrected' that too:

``````For N=1:30
.
.
.
plot_xy=plot(centroid(1,1),centroid(1,2))
set(plot_xy,'XData',centroid(:,1),'YData',centroid(:,2);
fitting=polyfit(centroid(:,1),centroid(:,2),2);
parabola=plot(centroid(:,1),nan(size(centroid,1),1));
evaluate=polyval(fitting,centroid(1,1));
set(parabola,'YData',evaluate)
.
.
end
``````
-
Thanks for replying !!! I did what you mentioned in your code, but I get the same error of polynomial : `Warning: Polynomial is not unique; degree >= number of data points. > In polyfit at 72` ... I just dont get whats up with this polynomial error –  NLed May 16 '10 at 16:57
Post some sample data, I'll try it if I have time later. –  High Performance Mark May 16 '10 at 18:29

In your code, you used

``````C1=centroids(1,1);
C2=centroids(1,2);
``````

After this step, C1 and C2 become single-element scalars. You can check this with `size(C1)` and `size(C2)`, which will return `[1 1]` as the answer. I'm guessing that you wanted to plot the first C1- and C2-point, then extend it all the way to element pair N. That's not necessary, the `plot` function can handle vectors (and even matrices, but that will appear as a series of plots).

I'm not familiar with the image processing toolbox, and I do not have that toolbox so I can't check the function outputs. But as far as I can tell, what you need is a 30-row 2-column array of centroid position data, from which you will curve-fit its position at unknown x. I've removed some plotting functions; I trust this will make the code clearer.

``````for N=1:30
I = figure.image.(['j' num2str(N)]);
bw=(I);
ss = bwlabel(bw);
s = regionprops(bw,'centroid');
centroids = cat(1, centroids, s.Centroid); %Concatenate s.Centroid below centroids
end

%At this point, "centroids" should be a 30-by-2 array
size(centroids) % check if the output from this is [30 2]

x=centroids(:,1);
y=centroids(:,2);
poly=polyfit(x,y,2); %poly is a vector of curve-fitted polynomial coefficients
pval=polyval(poly,x); %pval is a vector of curve-fitted values evaluated at x
parabola=plot(x,pval); %plot the parabola
``````

To get the y-position of the parabola at a point x_i, use `polyval(poly,x_i)`.

Note particularly the proper syntax for the `cat` function; cat(A,B) concatenates B below A, you can't use `cat` with only one argument, as in your original code. This is likely the root cause of your headache, since with only 1 argument MATLAB simply takes "s.Centroid" as your new "centroids" array instead of adding it below the existing "centroids" array.

Reply to EDIT #3

In this part of your code

``````poly=polyfit(C1,C2,2); %'poly' is a vector of polynomial coefficients
g=roots(poly); %g solves for polynomial roots
v =max(g) %v is the largest root (assumed to be the expected ground-level destination)
plot(xPlot,polyval(poly,xPlot),'y') %plots polynomial at given x-values

%here, one expects to plot a point for the expected destination.
%the call to the plot function should follow syntax similar to the previous line
plot(v,'go') %plot function has syntax plot(x,y,options)
%therefore it should look like plot(v,polyval(poly,v),'go')
``````

I've added some comments. The problem is with the line where you called `plot` to plot the expected destination; the syntax seems to be wrong. If only 1 data argument is given, MATLAB assumes the given data to be the y-value, using its array index as the x-value (i.e. plotting y(1) at 1, y(2) at 2, etc). This is not what you want for variable v.

You can also use `plot(v,0,'go')` as mentioned by Jonas, but it never hurts to double-check if the extrapolated polynomial value is actually near 0 ;)

-
Thanks for answering.. Im getting an error `Warning: Polynomial is not unique; degree >= number of data points. > In polyfit at 72` ... Why is this happening ? –  NLed May 16 '10 at 16:37
For which value of N are you getting this error? I'm guessing it would probably be N=1 or N=2. This is simply because you can't do polynomial curve-fitting with only 1 or 2 points, there is insufficient information :) –  JS Ng May 16 '10 at 23:13
Yes at N=1 ... as soon as it starts polyfitting basically ... I think its because the centroids store data in one row only .. it overwrites in every loop..For example, I expect to get 23 rows by the end of the code, but all I get is 1 row with the last coordinates of the centroid .. is this why its not working ??? –  NLed May 17 '10 at 1:02
Will do, updating it soon –  NLed May 17 '10 at 1:24
Looking at the original question again, there's a point I would like to clarify: You have 30 images and hence 30 corresponding centroids. You also mentioned that the "centroid" array creates its own structure with a row and 2 columns? Can you get the "centroid" array created as 30 rows and 2 columns, each row belonging to one image in the sequence? –  JS Ng May 17 '10 at 1:27