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Ignoring similar columns when concating matrixes vertically

In matlab I have a 128 by n matrix, which we can call

[A B C]

where each letter is an 128 by 1 matrix.

So what I want to do is concat the above matrix with another matrix,

[A~ D E].

Where A~ is similar in its values to A. What I want to get as the result of the concat would be:

[A B C D E],

where A~ is omitted.

What is the best way to do this? Note that I do not know beforehand that A~ is similar.

To clarify, my problem is how would I determine if two columns are similar? By similar I mean where between two columns, many of the row values are close in value.

Maybe an illustration would help as well

``````Vector A: [1  2   3 4 5 6 7 8   9]'
|  |   | | | | | |   |
Vector B: [20 2.4 4 5 0 7 7 7.6 10]'
``````

where there are some instances where the values are completely different, but for the most part the values are close. I don't have a defined threshold for this, but ideally it would be something that I could experiment with.

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Is your question a) how to determine if A~ is similar to A; b) how to grab only two columns of a matrix; or c) something else entirely? – tmpearce Jul 11 '12 at 23:03
Yeah this is not clear – mathematician1975 Jul 11 '12 at 23:03
What do you mean with 'similar'? If it's not identical what you mean, then you should define some way to define 'similar enough to be omitted' so that your question can be answered. – nrz Jul 11 '12 at 23:04
@tmpearce I have updated the question, please take a look now – mugetsu Jul 11 '12 at 23:14
@mugetsu If, say, you want to find whether `A` and `B` are similar matrices or not, why not just do: `is_similar = all(abs(A(:) - B(:)) < some_threshold)`? – Eitan T Jul 12 '12 at 7:13

If you want to omit only identical columns, this is one way to do it:

``````%# Define the example matrices.

Matrix1 = [ 1 2 3; 4 5 6; 7 8 9 ]';

Matrix2 = [ 4 5 6; 7 8 10 ]';

%# Concatenate the matrices and keep only unique columns.

OutputMatrix = unique([ Matrix1, Matrix2 ]', 'rows')';
``````
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To solve this, a matching algorithm called vl_ubcmatch can be used.

[matches, scores] = vl_ubcmatch(da, db) ; For each descriptor in da, vl_ubcmatch finds the closest descriptor in db (as measured by the L2 norm of the difference between them). The index of the original match and the closest descriptor is stored in each column of matches and the distance between the pair is stored in scores.

Thus, the solution is to find the matched columns with the highest scores and eliminate them before concatenating.

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I think it's `pdist2` you need. Consider the following example:

``````>> X = rand(25, 5);
>> Y = rand(100, 5);
>> Y(22, : ) = 0.99*X(22,:);
>> D = pdist2(X,Y, 'euclidean');
>> [~,ind] = min(D(:));
>> [i,j]=ind2sub(size(D),ind)

i =
22
j =
22
``````

which is indeed the entry we manipulated to be similar. Read `help pdist2` or `doc pdist2` for more background.

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