Unique numbers, not ordered

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Dylan den Hartog
Dylan den Hartog el 4 de Jun. de 2021
Comentada: Dylan den Hartog el 4 de Jun. de 2021
I have three matrices:
X1 = [1 23 36 45 47 2]'
X2 = [1 36 47 2 6]'
X3 = [1 22 23 47 2 4]'
I want to end up with a matrix like this:
X = [1 22 23 36 45 47 2 4 6]
I tried using this code:
unique([X1;X2;X3],'stable')
And this came out:
X = [1 23 36 45 47 2 6 22 4]
The numbers go up to 47 and then they go from low to high again. When the numbers go up again they are all unique numbers, so numbers that didn't occur the first time when the numbers went up.
X1 = [1 23 36 45 47 ** 2]'
X2 = [1 36 47 ** 2 6]'
X3 = [1 22 23 47 ** 2 4]'
I want to get the unique numbers bofore the drop, indicated with **, and after the drop.
X_before = [1 22 23 36 45 47]'
X_after = [2 4 6]
And then I can get the matrix I want:
X = [X_before; X_after]
= [1 22 23 36 45 47 2 4 6]
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Stephen23
Stephen23 el 4 de Jun. de 2021
@Dylan den Hartog: what should happen if:
  1. the maximum value occurs twice (or more)?
  2. the maximum does not occur in one (or more) of the vectors?
Dylan den Hartog
Dylan den Hartog el 4 de Jun. de 2021
Editada: Dylan den Hartog el 4 de Jun. de 2021
  1. The maximum value does not occur twice or more. When the numbers drop and go up again these will all be new (unique) numbers.
  2. When the maximum does not occur in one (or more) of the other vectors the maximum of that vector should be taken as a drop point.
So lets say we now have this:
X1 = [1 23 36 45 47 2]'
X2 = [1 36 47 2 6]'
X3 = [1 22 23 46 2 4]'
In X3 the first maximum is now 46 instead of 47. In the end I want to end up with this vector:
X = [1 22 23 36 45 46 47 2 4 6]

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the cyclist
the cyclist el 4 de Jun. de 2021
I believe this does what you want:
X1 = [1 23 36 45 47 2]';
X2 = [1 36 47 2 6 ]';
X3 = [1 22 23 47 2 4]';
peak1 = find(diff(X1)<0,1);
peak2 = find(diff(X2)<0,1);
peak3 = find(diff(X3)<0,1);
X_u = unique([X1(1:peak1); X2(1:peak2); X3(1:peak3)])
X_d = unique([X1(peak1+1:end); X2(peak2+1:end); X3(peak3+1:end)])
X_sort = [X_u; X_d]
This will break if the last value of any of the original vectors is the max, but that is easily fixed up.
  2 comentarios
Dylan den Hartog
Dylan den Hartog el 4 de Jun. de 2021
Editada: Dylan den Hartog el 4 de Jun. de 2021
This is almost what I want! The issue is that there is not just one drop (or peak) per matrix but there are multiple. So lets say the matrices are:
X1 = [1 23 36 45 47 2 20 25 3 7 10 5]';
X2 = [1 36 47 2 6 24 3 7 11 5]';
X3 = [1 22 23 47 2 4 25 3 7 11 5] ';
I should end up like this
X = [1 22 23 36 45 47 2 4 6 20 24 25 3 7 10 11 5]'
Dylan den Hartog
Dylan den Hartog el 4 de Jun. de 2021
I think I know how to do it now. Thanks
X1 = [1 23 36 45 47 2 20 25 3 7 10 5]';
X2 = [1 36 47 2 6 24 3 7 11 5]';
X3 = [1 22 23 47 2 4 25 3 7 11 5]';
[~,peaks1] = findpeaks(X1);
[~,peaks2] = findpeaks(X2);
[~,peaks3] = findpeaks(X3);
for i = 1
X_u{i,1} = unique([X1(1:peaks1(i)); X2(1:peaks2(i)); X3(1:peaks1(i))]);
end
for i = 2:length(peaks1)
X_u{i,1} = unique([X1(peaks1(i-1)+1:peaks1(i)); X2(peaks2(i-1)+1:peaks2(i)); X3(peaks3(i-1)+1:peaks3(i))]);
end
for i = length(peaks1)+1
X_u{i,1} = unique([X1(peaks1(i-1)+1:end); X2(peaks2(i-1)+1:end); X3(peaks3(i-1)+1:end)]);
end
X_sort = vertcat(X_u{:})

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