How to sum up row values in a matrix?

5 vues (au cours des 30 derniers jours)
Sayanta
Sayanta le 14 Sep 2012
Dear All
I have matrix A
A = [ 1 2 3 5;
3 4 5 4;
];
I want to add row values like that using a loop ( without manual input)
A(1,1) + A(1,2) = B1
A(1,3) + A(1,4) = B2
A(2,1) + A(2,2) = B3
A(2,3) + A(2,4) = B4
B= [ B1 B2;
B3 B4
];
How can I do that any tips
Many Thanks in advance
  6 commentaires
Yuli Hartini
Yuli Hartini le 2 Jan 2017
Help me please
Image Analyst
Image Analyst le 2 Jan 2017
I'm not sure of your rule, but it looks like you might be doing
Values = cumsum(M(:, end))

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Réponse acceptée

Renda Mohammedjuhar
Renda Mohammedjuhar le 30 Avr 2019
I have a matrix like [1 2 3 4] I want an output [1 3 6 10]

Plus de réponses (4)

Azzi Abdelmalek
Azzi Abdelmalek le 14 Sep 2012
Modifié(e) : Azzi Abdelmalek le 14 Sep 2012
A = [ 1 2 3 5;3 4 5 4]
res=reshape(sum(reshape(A',1,2,[])),2,2)'
%or
res=A(:,[1 3])+A(:,[2 4])
%or
n=size(A,2)/2
res=[sum(A(1,1:n)) sum(A(1,n+1:end)); sum(A(2,1:n)) sum(A(2,n+1:end))]

Image Analyst
Image Analyst le 14 Sep 2012
Modifié(e) : Image Analyst le 14 Sep 2012
Here's one way:
A = [ 1 2 3 5;
3 4 5 4]
% Get the sliding sum.
a2 = conv2(A, [1 1], 'valid');
% Extract just the first and last column.
output = [a2(:,1) a2(:,3)]

Sayanta
Sayanta le 14 Sep 2012
Hi Image analyst
I have bigger matrix.
A=
0.0018 0.0008 0.0000 0.0000 0.2304 0.7345 0.0159 0.0166
0.0024 0.0016 0.0001 0.0000 0.2161 0.7441 0.0165 0.0192
0.0029 0.0027 0.0002 0.0000 0.2084 0.7475 0.0169 0.0214
0.0034 0.0040 0.0003 0.0000 0.2041 0.7479 0.0172 0.0230
0.0038 0.0055 0.0005 0.0001 0.2016 0.7468 0.0175 0.0243
0.0041 0.0072 0.0007 0.0001 0.1999 0.7450 0.0177 0.0253
0.0044 0.0090 0.0009 0.0001 0.1988 0.7429 0.0178 0.0261
I want to do the operation like your code
% Get the sliding sum
a2 = conv2(A, [1 1], 'valid');
how can I do that
Here I want have to add
A(1,1) + A(1,2) + A(1,3)+ A(1,4) = B1
A(1,5) + A(1,6) + A(1,7)+ A(1,8) = B2
A(2,1) + A(2,2) + A(2,3)+ A(2,4) = B3
A(2,5) + A(2,6) + A(2,7)+ A(2,8) = B4
B = [ B1 B2
B3 B4]
Thanks
  4 commentaires
Azzi Abdelmalek
Azzi Abdelmalek le 14 Sep 2012
or simpler
n=size(A,2)/2
res=[sum(A(1,1:n)) sum(A(1,n+1:end)); sum(A(2,1:n)) sum(A(2,n+1:end))]
Image Analyst
Image Analyst le 14 Sep 2012
Yeah, that's probably better - more direct - as long as he has a 2 row array. In his example here (which he incorrectly posted as an answer), he has a 7 row by 8 column array. See my build on your solution for when it has any number of rows.

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Image Analyst
Image Analyst le 14 Sep 2012
Modifié(e) : Image Analyst le 14 Sep 2012
A=[...
0.0018 0.0008 0.0000 0.0000 0.2304 0.7345 0.0159 0.0166
0.0024 0.0016 0.0001 0.0000 0.2161 0.7441 0.0165 0.0192
0.0029 0.0027 0.0002 0.0000 0.2084 0.7475 0.0169 0.0214
0.0034 0.0040 0.0003 0.0000 0.2041 0.7479 0.0172 0.0230
0.0038 0.0055 0.0005 0.0001 0.2016 0.7468 0.0175 0.0243
0.0041 0.0072 0.0007 0.0001 0.1999 0.7450 0.0177 0.0253
0.0044 0.0090 0.0009 0.0001 0.1988 0.7429 0.0178 0.0261]
[rows columns] = size(A)
% Get the sliding sum
a2 = conv2(A, ones(1, columns/2), 'valid')
% Extract just the first and last column.
B = [a2(:,1) a2(:,end)]
Or, building off Azzi's solution and making it work for a 2D array of any number of rows:
B = [sum(A(:,1:columns/2), 2) sum(A(:,(columns/2)+1:end), 2)]
This is probably the most direct way. And it's only 1 line of code instead of 2.

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