How to add the new delayed signal to the PLOT !
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Hey all, My code below is working, however by looking at the plot it seems it didn't draw the new delayed signals, It just plotted the second signal? Is it something to do with [xi,f]=ksdensity(Y+delay); I am not adding the delay?
x = sample1(:,1);
X = (x).';
y = sample2(:,1);
Y = (y).';
figure;
clf
fisrt = subplot(3,1,1);
[xi,f]=ksdensity(X);
plot(f,xi);
line(repmat(X,2,1),repmat([0;0.1*max(xi)],1,length(X)),'color','r' );
second = subplot(3,1,2);
[xi,f]=ksdensity(Y);
plot(f,xi);
line(repmat(Y,2,1),repmat([0;0.1*max(xi)],1,length(Y)),'color','r' );
[Rxx,lags] = xcorr(X,Y);
[Z,delay] = max(Rxx);
lags(delay);
if delay>0
hold(first,'on');
[xi,f]=ksdensity(Y+delay);
plot(first,f,xi);
else
hold(second,'on');
[xi,f]=ksdensity(X+delay);
plot(second,f,xi);
end
Cheers,
2 Comments
Fangjun Jiang
on 29 Aug 2011
See my comment in your previous question. You accepted the answer. What further work have you done?
http://www.mathworks.com/matlabcentral/answers/14446-plot-problem
Fangjun Jiang
on 30 Aug 2011
The same mistake was pointed out even earlier. So, instead of making the same mistake again and again, please make your own effort to read, understand and learn it.
http://www.mathworks.com/matlabcentral/answers/13110-signal-processing
Accepted Answer
Rick Rosson
on 29 Aug 2011
Honglei's answer is correct, and it explains why simply adding 2 to an existing signal does not shift the signal in time, but merely shifts every value upward by 2.
To shift a signal in time, you need to insert zeros at the beginning of the signal, an operation which is often called zeropadding.
Please try the following example:
% define a simple signal:
x = (1:20)';
% now shift the signal in time by zeropadding at the beginning:
N = 5;
y = [ zeros(N,1) ; x ];
% Also, let's zeropad x at the end so that it has the same length as y:
x = [ x ; zeros(N,1) ];
% Create a simple time domain:
n = (1:size(x,1))';
% plot both signals:
figure;
plot(n,x,n,y);
legend('x','y');
You should see that y is a shifted version of x.
HTH.
Rick
2 Comments
lamawal Jonathan
on 30 Nov 2014
Hello All! i'm on a similar problem (zero pad a signal), the slight difference is that my signal is a vector of single row and 2400 columns. each time i zero pad, it gives me the following error;
"Error using vertical
Dimensions of matrices being concatenated are not consistent."
i even tried running your code several times but it repeats same error on line 5 (y = [ zeros(N,1) ; x ];) of your code. pls, help i'm very new to matlab and it's very important for me.
More Answers (2)
Honglei Chen
on 29 Aug 2011
Hi Susan,
X+delay does not delay the signal, it merely adds an offset of delay's value to X. To delay a signal, you need to shift it in samples. One way to do it is to pad zeros in the front. For example, assume your delay is 1 second and your sampling frequency is also 1 second, then you need to insert 1 zero in front of signal, i.e., make
X_delay = [0 X];
HTH
9 Comments
Fangjun Jiang
on 29 Aug 2011
I am amazed by the way you learn. The way for "applying it" has been given in this answer and many other answers. If you spend more time reading it and understanding it, instead of asking the same question repeatedly, your problem may already be solved.
lamawal Jonathan
on 30 Nov 2014
Hello All! i'm on a similar problem (zero pad a signal), the slight difference is that my signal is a vector of single row and 2400 columns. each time i zero pad, it gives me the following error;
"Error using vertical
Dimensions of matrices being concatenated are not consistent."
i even tried running your code several times but it repeats same error on line 5 (y = [ zeros(N,1) ; x ];) of your code. pls, help i'm very new to matlab and it's very important for me.
Honglei Chen
on 29 Aug 2011
Hi Susan,
Let's say I have two signals x and y. To make it simple, let's say
x = [1 1 1 1 1 ]
so if y is the same as x but delayed by 2 samples, you would see
y = [0 0 1 1 1]
for the first 5 samples. However, if you do
x+2
you will get
[3 3 3 3 3]
which is not the delayed version.
HTH
3 Comments
lamawal Jonathan
on 30 Nov 2014
Hello All! i'm on a similar problem (zero pad a signal), the slight difference is that my signal is a vector of single row and 2400 columns. each time i zero pad, it gives me the following error;
"Error using vertical
Dimensions of matrices being concatenated are not consistent."
i even tried running your code several times but it repeats same error on line 5 (y = [ zeros(N,1) ; x ];) of your code. pls, help i'm very new to matlab and it's very important for me.
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