How to convert a 3D matrix into 2D matrix?
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Hi,
I am trying to convert 3000x64x278 into 3000*64 rows and 278 columns.
I do know that it can be done something like this:
for example A is of 3000x64x278 matrix so I can call its first matrix as
B=A(:,:,1);
to change it into 3000*64 that means every column under one column I can do
B=B(:);
so There are more 277 columns to fill, how should I do that?
Thanks.
0 Comments
Accepted Answer
Stephen23
on 11 May 2016
Edited: Stephen23
on 11 May 2016
>> A = reshape(1:4*3*2,4,3,2) % array of size (4,3,2)
A(:,:,1) =
1 5 9
2 6 10
3 7 11
4 8 12
A(:,:,2) =
13 17 21
14 18 22
15 19 23
16 20 24
>> S = size(A);
>> M = reshape(A,[S(1)*S(2),S(3)]) % matrix of size (4*3,2)
M =
1 13
2 14
3 15
4 16
5 17
6 18
7 19
8 20
9 21
10 22
11 23
12 24
5 Comments
Ioannis Matthaiou
on 23 Dec 2021
Hi,
Solution update:
C=[];
for i = 1 : size(A,3)
C = [C; A(:,:,i)];
end
C =
1 2
3 4
5 6
7 8
9 10
11 12
The matrix grows inside the loop, which is okay.
Thanks.
Yiannis
More Answers (1)
jinhu
on 28 May 2023
The order of three-dimensional arrays in MATLAB is: row, column, and page. A two-dimensional array only has rows and columns. If two values are assigned between them, there is a dimensionality reduction issue that needs to be noted.
For example, A3 is a three-dimensional array, where A3 (:,:, 1)=[1,2,3; 4,5,6]; A3 (:,:, 2)=[7,8,9; 10,11,12];
So in the assignment of A2=A3 (:,:, 1), the result A2 is a two-dimensional matrix (a two-dimensional array) (a matrix of 2X3).
In the assignment of A2=A3 (1,:,:), the result A2 is a three-dimensional matrix (1X3X2 matrix).
Essentially, they should all be a two-dimensional matrix. Why does A2 become a three-dimensional matrix in the latter assignment, while the former is two-dimensional?
That is to say, the former should also be considered three-dimensional, how can it be reduced to two-dimensional, while the latter cannot be reduced to two-dimensional?
The main reason is that in a three-dimensional matrix, the first dimension represents rows, the second dimension represents columns, and the third dimension represents pages. When the third dimension is 1, it represents only 1 page, naturally reducing to 2D. When the first dimension is 1, it represents only one row, but each page has one, so from the perspective of the room, it is not reduced to two-dimensional.
The order of three-dimensional arrays in MATLAB is: row, column, and page. A two-dimensional array only has rows and columns. If two values are assigned between them, there is a dimensionality reduction issue that needs to be noted.
For example, A3 is a three-dimensional array, where A3 (:,:, 1)=[1,2,3; 4,5,6]; A3 (:,:, 2)=[7,8,9; 10,11,12];
So in the assignment of A2=A3 (:,:, 1), the result A2 is a two-dimensional matrix (a two-dimensional array) (a matrix of 2X3).
In the assignment of A2=A3 (1,:,:), the result A2 is a three-dimensional matrix (1X3X2 matrix).
Essentially, they should all be a two-dimensional matrix. Why does A2 become a three-dimensional matrix in the latter assignment, while the former is two-dimensional?
That is to say, the former should also be considered three-dimensional, how can it be reduced to two-dimensional, while the latter cannot be reduced to two-dimensional?
The main reason is that in a three-dimensional matrix, the first dimension represents rows, the second dimension represents columns, and the third dimension represents pages. When the third dimension is 1, it represents only 1 page, naturally reducing to 2D. When the first dimension is 1, it represents only one row, but each page has one, so from a physical perspective, it is not reduced to two-dimensional.
If a 2D result is required in the end, please use reshape processing.
1 Comment
Steven Lord
on 28 May 2023
MATLAB does not display trailing singleton dimensions of an array. But leading singleton dimensions are important.
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