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If we consider 3 variables : x=1; y=2; and z=3; To know if x is more closer to y than z , we must perform the following computations :

a=x-y;   % -1
a=a.^2;  % (-1).^2 = 1
b=x-z;   %-2
b=b.^2;  % (-2).^2 =4
%find the minimum
d=min(a,b);  % 1

Therefore, we notice that x is more closer to y than z.

Now, let us consider 3 matrices x,y and z instead of variables. It is the same concept but i am working with matrices instead of variables. Recall that i want to know if x is more closer to y or to z.

By the way, i tried to write the following matlab code:

  clear all;
close all;

%I have 3 matrices x, y and z
x=[1 4 1 ; 4 5 3 ; 7 3 9]
y=[3 6 5 ; 6 5 7 ; 3 2 3]
z=[2 6 5 ; 3 7 6 ; 2 7 6]

%Compute the distance between x and y
a= x-y;
%squaring this distance

%Compute the distance between x and z
%squaring the distance

%So to compute the closest distance among a_squared and b_squared, i think
%that i should compute the minimum.

d=min(a_squared,b_squared); % in this case, we get a new matrix which is the minimum. So how can i know if this d belongs to the cluster y or z ?

in this case, we get a new matrix which is the minimum. So how can i know if this d belongs to the cluster y or z ? So regarding the value of d, how to know if d belongs to y or z ? In other words, how can i know if x is more closer to y or to z ?? Please i need your help and opinions. Any help will be very appreciated.

Thank's in advance.

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This Q&A -- math.stackexchange.com/questions/507742/… -- may be of interest to you –  High Performance Mark Dec 11 '13 at 17:18
Your question is equivalent to the question of what distance between matrices you consider. For example, take a look at this post. Once you have selected one, you have to implement it, and it's done :). –  Bentoy13 Dec 11 '13 at 17:18
Thank you for your answers :) , so the distance computed in this link will be an integer value or a matrix ? If it is an integer value, so this will be a great answer and solution to me :) . Please i need your responses :) –  Christina Dec 11 '13 at 17:45
And please can you write me in an answer the matlab code of at least two of the methods of distances . for example for d1, d2 written in this helpful link.. –  Christina Dec 11 '13 at 17:50
@Christina, not an integer, but a scalar, in this case a real number. –  A. Donda Dec 11 '13 at 17:51

1 Answer 1

up vote 1 down vote accepted

A distance can be defined as the norm of a difference.

For distances of matrices, you can define several distances depending on which matrix norm you use. Matlab's norm function can compute different norms, including the 2-norm and the Frobenius norm.

I'd recommend you start with the 2-norm and see whether this helps you do what you want to do.

Example code: Distance between matrices x and y:

dxy = norm(x - y, 2);
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You select them via the second argument of norm. See mathworks.com/help/matlab/ref/norm.html –  A. Donda Dec 11 '13 at 20:57
Well, I assumed so, but I confused the 2-norm of a vector with that of a matrix. I corrected my answer. The 2-norm of a matrix is actually the largest 2-norm of a vector that arises from a projection of the matrix, or, the largest singular value of the matrix. The Frobenius norm is the naive generalization, just treat the matrix as a vector and compute its 2-norm. –  A. Donda Dec 11 '13 at 21:11
Correct, for a matrix we habe 1-norm, 2-norm, Inf-norm, and Frobenius norm. –  A. Donda Dec 11 '13 at 21:12
:) Hope it does what you need. –  A. Donda Dec 11 '13 at 21:15
If you use the vector 2-norm to define a vector (or point) distance, this is identical to the Euclidean distance. The matrix 2-norm is the generalization of the vector 2-norm to matrices, so in this sense it is similar to the Euclidean. –  A. Donda Dec 11 '13 at 21:36

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