How to deal with this error ??

2 views (last 30 days)
Good mind
Good mind on 20 May 2017
Commented: Walter Roberson on 21 May 2017
Error using + Matrix dimensions must agree. *Error in (line 77) y= d1w + d2w + aa2;
d1 and d2 are details coefficients at level 1 and 2 respectively. aa2 is the approximate coefficient at level 2
ech is an ecg signal
%wavelet decomposition
[C, L] = wavedec(ech, 2,'haar');
%extraction of approximate and detail coefficients of signal ech
aa2 = appcoef(C, L, 'haar', 2);
dd2 = detcoef(C, L, 2);
dd1= detcoef(C, L, 1);
%Wiener computations
s1=median(abs(d1))/.6745;
g1=((dd1).^2)/((dd1).^2)+((s1).^2);
d1w=repmat(d1(:), 1, size(d1)) .*g1;
s2=median(abs(d2))/.6745;
g2=((dd2).^2)/((dd2).^2)+((s2).^2);
d2w=repmat(d2(:), 1, size(d2)) .*g2;
%reconstruct the signal
subplot(3,2,5);
y= d1w + d2w + aa2;
plot(y,'k');
  2 Comments
Walter Roberson
Walter Roberson on 20 May 2017
"ech is an ecg signal"
ecg signals are multiple channel, typically either 5 or 12. The code you are using requires that ech is a vector.
Your d1 is not defined in the code. Did you possibly intend to code dd1 instead of d1 ?
Good mind
Good mind on 21 May 2017
Edited: Good mind on 21 May 2017
clear all;
subplot(3,2,1);
load ecg.m;
plot(ecg); title ('ECG');
xlabel('samples'); ylabel('magnitude');
%wavelet decomposition
[C1, L1] = wavedec(ecg, 2,'haar');
%extraction of approximate and detail coefficients of signal
a2 = appcoef(C1, L1, 'haar', 2);
d2= detcoef(C1, L1,2);
d1= detcoef(C1, L1, 1);
% hard (h) thresholding
TM=1;
n2=length(d2);
s2=median(abs(d2))/.6745;
t2= TM*s2;
d2thard = wthresh(d2,'h',t2);
n1=length(d1);
s1=median(abs(d1))/.6745;
t1= TM*s1;
d1thard = wthresh(d1,'h',t1);
%wavelet coefficients after hard thresholding
hard_ua2 = upcoef('a',a2,'haar',2, 2000);
hard_ud2 = upcoef('d',d2thard,'haar',2, 2000);
hard_ud1 = upcoef('d',d1thard,'haar',1, 2000);
subplot(3,2,3);
ech= (hard_ud1 + hard_ud2 + hard_ua2);
plot(ech);title('ech the signal after hard thre');
%wavelet decomposition 2
[C, L] = wavedec(ech, 2,'haar');
%extraction of approximate and detail coefficients of signal ech
aa2 = appcoef(C, L, 'haar', 2);
dd2 = detcoef(C, L, 2);
dd1= detcoef(C, L, 1);
%Wiener computations
g1=((dd1).^2)/((dd1).^2)+((s1).^2);
d1w=repmat(d1(:), 1, size(d1)) .*g1;
g2=((dd2).^2)/((dd2).^2)+((s2).^2);
d2w=repmat(d2(:), 1, size(d2)) .*g2;
%reconstruct the signal
subplot(3,2,5);
y= d1w + d2w + a2;
plot(y,'k');

Sign in to comment.

Answers (1)

Walter Roberson
Walter Roberson on 21 May 2017
You have
d1w=repmat(d1(:), 1, size(d1)) .*g1;
g2=((dd2).^2)/((dd2).^2)+((s2).^2);
d2w=repmat(d2(:), 1, size(d2)) .*g2;
size(d1) is a vector, so your repmat is working as if you had used repmat(d1(:), [1 1 500]) when you wanted repmat(d1(:), [1 500]) I guess. Same problem with your repmat for d2w. (Ah, I just realized that 500 is length(ecg)/2 )
When you get down to
y= d1w + d2w + a2
you run into the fundamental problem that arrays derived from d1 are length(x)/2 on a side, but arrays derived from d2 are length(x)/4 on a side. You will not be able to add them.
  4 Comments
Good mind
Good mind on 21 May 2017
i used it (length instead size) before, but i got the same problem Error using + Matrix dimensions must agree.
Error in y= d1w + d2w+a2;
Walter Roberson
Walter Roberson on 21 May 2017
You are attempting to add matrices that are inherently differently sizes, one half the size of the other. You need to go back and figure out what you are trying to do there.

Sign in to comment.

Categories

Find more on Discrete Multiresolution Analysis in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!