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I'm wondering how to calculate precision and recall measures for multiclass multilabel classification, i.e. classification where there are more than two labels, and where each instance can have multiple labels?



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Well, false would be if you didn't classified correctly, and true where it was correctly classified. Why do you worry about multiple labels? –  Thomas Jungblut Jan 25 '12 at 17:10
+1 What's up with the downvotes without comments? I had the same question and I'm glad I found this page. @ThomasJungblut I understand how to calculate the precision for a given class, e.g. class A, but how should I calculate the precision for all classes? Is it an arithmetic mean of the precision for each class? –  mehaase May 13 '12 at 23:41
I found a similar question, this might be a duplicate: stackoverflow.com/questions/3856013/… –  mehaase May 13 '12 at 23:43
This question appears to be off-topic because it asks about the textbook formula and not programming it and so belongs on CrossValidated. In fact, it was already answered well a couple days before this question was asked: stats.stackexchange.com/questions/21551/… –  demongolem May 9 '14 at 17:08

3 Answers 3

The answer is that you have to compute precision and recall for each class, then average them together. E.g. if you classes A, B, and C, then your precision is:

(precision(A) + precision(B) + precision(C)) / 3

Same for recall.

I'm no expert, but this is what I have determined based on the following sources:

https://list.scms.waikato.ac.nz/pipermail/wekalist/2011-March/051575.html http://stats.stackexchange.com/questions/21551/how-to-compute-precision-recall-for-multiclass-multilabel-classification

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If your data has unbalanced number of labels, this averaging may not reflect the real performance. –  tashuhka Aug 13 '14 at 14:25
  • Let us assume that we have a 3-class multi classification problem with labels A, B and C.
  • The first thing to do is to generate a confusion matrix. Note that the values in the diagonal are always the true positives (TP).
  • Now, to compute recall for label A you can read off the values from the confusion matrix and compute:

    = TP_A/(TP_A+FN_A)
    = TP_A/(Total gold labels for A)
  • Now, let us compute precision for label A, you can read off the values from the confusion matrix and compute:

    = TP_A/(TP_A+FP_A)
    = TP_A/(Total predicted as A)
  • You just need to do the same for the remaining labels B and C. This applies to any multi-class classification problem.

Here is the full article that talks about how to compute precision and recall for any multi-class classification problem, including examples.

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Simple averaging will do if the classes are balanced.

Otherwise, recall for each real class needs to be weighted by prevalence of the class, and precision for each predicted label needs to be weighted by the bias (probability) for each label. Either way you get Rand Accuracy.

A more direct way is to make a normalized contingency table (divide by N so table adds up to 1 for each combination of label and class) and add the diagonal to get Rand Accuracy.

But if classes aren't balanced, the bias remains and a chance corrected method such as kappa is more appropriate, or better still ROC analysis or a chance correct measure such as informedness (height above the chance line in ROC).

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