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if i got two decision trees on the same amount of nodes, which is considered better? tree 1: (F is false an T is True)

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meaning the first one is wider but the second one deeper.

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1 Answer 1

up vote 6 down vote accepted

I know this question is quite old but in case you are still interested in the answer, generally, a shorter, wider tree would be "better." Consider the fact that it will take an additional decision to reach the inner decision node "C".

What you really have to look at is the entropy and gain at each inner decision node. Entropy is the amount of uncertainty or randomness with a particular variable. For example, consider a classifier with two classes, YES and NO (true or false in your case). If a particular variable or attribute, say x has three training examples of class YES and three training examples of class NO (for a total of six), the entropy would be 1. This is because there is an equal number of both classes for this variable and is the most "mixed up" you can get. Likewise, if x had all six training examples of a particular class, say YES, then entropy would be 0 because this particular variable would be pure, thus making it a leaf node in our decision tree.

Entropy may be calculated in the following way:

enter image description here

Now consider gain. Note that each level of the decision tree, we choose the attribute that presents the best gain for that node. The gain is simply the expected reduction in the entropy achieved by learning the state of the random variable x. Gain is also known as Kullback-Leibler divergence. Gain can be calculated in the following way:

Kullback-Leibler divergence

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Sorry for the late comment, but shouldn't that be p_(-) in one of the parts of the entropy calculation? –  anderas May 27 '14 at 10:41

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