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While constructing each tree in the random forest using bootstrapped samples, for each terminal node, we select m variables at random from p variables to find the best split (p is the total number of features in your data). My questions (for RandomForestRegressor) are:

1) What does max_features correspond to (m or p or something else)?

2) Are m variables selected at random from max_features variables (what is the value of m)?

3) If max_features corresponds to m, then why would I want to set it equal to p for regression (the default)? Where is the randomness with this setting (i.e., how is it different from bagging)?

Thanks.

3 Answers 3

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Straight from the documentation:

[max_features] is the size of the random subsets of features to consider when splitting a node.

So max_features is what you call m. When max_features="auto", m = p and no feature subset selection is performed in the trees, so the "random forest" is actually a bagged ensemble of ordinary regression trees. The docs go on to say that

Empirical good default values are max_features=n_features for regression problems, and max_features=sqrt(n_features) for classification tasks

By setting max_features differently, you'll get a "true" random forest.

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    So why do they claim that "Empirical good default values are max_features=n_features for regression problems"? As you say this is just bagging - isn't random forest supposed to be better than bagging?
    – csankar69
    May 30, 2014 at 18:32
  • @csankar69: I'm no expert in regression trees. I did work on the RFs because I use them for classification, and I can assure you their author is knowledgeable in these matters. In any case, you can check for yourself whether attribute bagging helps for your problem.
    – Fred Foo
    May 30, 2014 at 19:36
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    I'm 95% sure the max_features=n_features for regression is a mistake on scikit's part. The original paper for RF gave max_features = n_features/3 for regression. It wouldn't even make sense to use the former, it's not even a RF. Aug 26, 2016 at 9:19
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    Thanks @UlysseMizrah for the comment! The Wikipedia article references The Elements of Statistical Learning: 2nd Edition (Hastie et. al. 2009, p. 592), which reports that the original authors recommend n_features / 3. I thought I'd post these additional references just in case someone was interested. May 20, 2017 at 20:04
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    The question whether max_features=n_features makes a good default is discussed in depth on stats.stackexchange.com/q/324370/295421 and github.com/scikit-learn/scikit-learn/issues/7254
    – claasz
    Nov 3, 2020 at 16:27
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@lynnyi, max_features is the number of features that are considered on a per-split level, rather than on the entire decision tree construction. More clear, during the construction of each decision tree, RF will still use all the features (n_features), but it only consider number of "max_features" features for node splitting. And the "max_features" features are randomly selected from the entire features. You could confirm this by plotting one decision tree from a RF with max_features=1, and check all the nodes of that tree to count the number of features involved.

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    This is more like a comment to another comment than an answer to the question.
    – slfan
    May 29, 2019 at 16:38
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    Sorry but right now I have less than 50 reputation to comment. May 29, 2019 at 17:50
  • wait so each tree in random forest actually uses all features however randomly select subset of them at each node? Or does each tree take subset of features and from there take max_features at each node?
    – haneulkim
    Jan 16, 2021 at 15:56
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    @ Ambleu, "each tree in random forest actually uses all features however randomly select subset of them at each node" is the correct one. Jan 16, 2021 at 18:23
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max_features is basically the number of features selected at random and without replacement at split. Suppose you have 10 independent columns or features, then max_features=5 will select at random and without replacement 5 features at every split.

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  • when you say "at every split" you mean when building each individual decision tree with the subsampled features?
    – seralouk
    Apr 30 at 8:30

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