Score transform for RUSBoost in fitcensemble

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the cyclist
the cyclist el 12 de Abr. de 2024
Comentada: the cyclist el 11 de Mayo de 2024
The documentation for the predict function of fitcensemble lists the score transforms (to convert scores to probabilities) for the following model methods:
  • Bag (none)
  • AdaBoostM1 (doublelogit)
  • GentleBoost (doublelogit)
  • LogitBoost (doublelogit)
But it does not list a score transform for several other possible fitcensemble methods. Are these documented somewhere else?
I'm currently most interested in RUSBoost, because that is the method I am using.

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Sarthak
Sarthak el 24 de Abr. de 2024
Editada: Sarthak el 2 de Mayo de 2024
Hey,
The RUSBoost is a boosting algorithm that uses random undersampling, which is an effective method for the cases where the classes are imbalanced. The actual boosting mechanism used under the hood is still the multi-class AdaBoost mechanism as mentioned in the following MathWorks documentation:
If we don't have a binary classification problem, the score transforms logit, or doublelogit, do not convert the scores of the ensembles into to 0-1 range; the operations for these score transforms are given as
out = 1./(1+exp(-in));
out = 1./(1+exp(-2*in));
That is why the idea of using ScoreTransform as doublelogit is mentioned for only the binary classification models.
Now, if you look at the Multi-class AdaBoost paper (https://hastie.su.domains/Papers/samme.pdf), in particular, Eq. 4 and the equation right below it, you can see how the scores can be converted to probabilities. We can basically use the softmax function to do it. The way it would work is, we would pass (1/K-1)*s_i, where K is the number of classes and i is the score corresponding to ith class, with i = 1,...,K, into the softmax function. For your convenience, I've written this function:
function out = mysoftmax(in)
% number of columns of in is the number of classes
K = size(in,2);
in = (1/(K-1)).*in;
inmax = max(in,[],2);
in = in-inmax;
% in = bsxfun(@minus,in,inmax);
numerator = exp(in);
denominator = sum(numerator,2);
denominator(denominator == 0) = 1;
out= numerator./denominator;
end
After training the ensemble, the user can create this MATLAB file and then set the ScoreTransform to this function (note that ScoreTransform can be set to a function handle):
mdl.ScoreTransform = @mysoftmax;
Once you do that and call predict, the scores will not be normalized to lie between 0 and 1, and it will be using the conditional probability formulation provided in the aforementioned paper.
I hope this helps!
  3 comentarios
Sarthak
Sarthak el 2 de Mayo de 2024
Hi,
First of all, you're correct; those two lines do the same thing. It should be written this way:
function out = mysoftmax(in)
% number of columns of in is the number of classes
K = size(in,2);
in = (1/(K-1)).*in;
inmax = max(in,[],2);
in = in-inmax;
numerator = exp(in);
denominator = sum(numerator,2);
denominator(denominator == 0) = 1;
out = numerator./denominator;
end
Note that this code can potentially be written in a more efficient way; it's not meant to be production code.
Softmax formula is given in https://en.wikipedia.org/wiki/Softmax_function. Considering that for a binary classification, the scores for 2 classes are negatives of each other (i.e., if f_first is the score for first class and f_second is the score for the second class, f_second = -f_first), we can write the softmax output in the following way:
softmax(f_first) = e^(f_first)/(e^(f_first)+e^(f_second)) = e^(f_first)/(e^(f_first)+e^(-f_first))
Now, multiply all terms by e^(-f_first):
softmax(f_first) = 1/(1+e^(-2*f_first)).
We can do a similar thing for the second class, but another way to calculate it is to subtract it from 1 since they add up to 1.
So, yes; softmax reduces to doublelogit for binary classification. I ran this code to see if the answers match:
>> load ionosphere;
>> obj = fitcensemble(X,Y,Method = 'AdaBoostM1',ScoreTransform = 'doublelogit');
>> [l1,s1] = predict(obj,X);
% Using the updated softmax function
>> obj.ScoreTransform = @mysoftmax;
>> [l2,s2] = predict(obj,X);
>> max(abs(s1-s2))
1.0e-86 *
0.0503 0.8043
So the error is negligible between the scores from the model that uses doublelogit and the one that uses softmax, as expected.
The above softmax function is not doing something different than doublelogit; after removing the redundant line, I think they're doing the same thing.
Note that this function is subtracting maximum value first and then calculating softmax values to avoid overflows:
Hope this helps!
the cyclist
the cyclist el 11 de Mayo de 2024
Thanks for the additional comments, which are very helpful.

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