问题
I just built my first random forest classifier today and I am trying to improve its performance. I was reading about how cross-validation is important to avoid overfitting of data and hence obtain better results. I implemented StratifiedKFold using sklearn, however, surprisingly this approach resulted to be less accurate. I have read numerous posts suggesting that cross-validating is much more efficient than train_test_split.
Estimator:
rf = RandomForestClassifier(n_estimators=100, random_state=42)
K-Fold:
ss = StratifiedKFold(n_splits=10, shuffle=True, random_state=42)
for train_index, test_index in ss.split(features, labels):
train_features, test_features = features[train_index], features[test_index]
train_labels, test_labels = labels[train_index], labels[test_index]
TTS:
train_feature, test_feature, train_label, test_label = \
train_test_split(features, labels, train_size=0.8, test_size=0.2, random_state=42)
Below are results:
CV:
AUROC: 0.74
Accuracy Score: 74.74 %.
Specificity: 0.69
Precision: 0.75
Sensitivity: 0.79
Matthews correlation coefficient (MCC): 0.49
F1 Score: 0.77
TTS:
AUROC: 0.76
Accuracy Score: 76.23 %.
Specificity: 0.77
Precision: 0.79
Sensitivity: 0.76
Matthews correlation coefficient (MCC): 0.52
F1 Score: 0.77
Is this actually possible? Or have I wrongly set up my models?
Also, is this the correct way of using cross-validation?
回答1:
glad to see you documented yourself !
The reason for that difference is that TTS approach introduces bias (as you are not using all of your observations for testing) this explains the difference.
In the validation approach, only a subset of the observations—those that are included in the training set rather than in the validation set—are used to fit the model. Since statistical methods tend to perform worse when trained on fewer observations, this suggests that the validation set error rate may tend to overestimate the test error rate for the model fit on the entire data set.
And the results can vary quite a lot:
the validation estimate of the test error rate can be highly variable, depending on precisely which observations are included in the training set and which observations are included in the validation set
Cross validation deals with this problem by using all the data available and thus eliminating the bias.
Here your results for the TTS approach hold more bias and this should be kept in mind when analysing the results. Maybe you also got lucky on the Test/Validation set sampled
Again, more on that topic here with a great, beginner friendly article : https://codesachin.wordpress.com/2015/08/30/cross-validation-and-the-bias-variance-tradeoff-for-dummies/
For a more in-depth source, refer to the "Model Assessment and selection" Chapter here (source of quoted content):
https://web.stanford.edu/~hastie/Papers/ESLII.pdf
回答2:
Cross-validation tends to apply correction for selection bias in your data. So, e.g. if you focused on AUC metric and get lower AUC score within TTS approach, it means there's a bias in your TTS.
You might want conduct an analysis to figure this bias out (e.g. you can pay more attention on date features (make sure you don't use future to predict past) or trying to find any kind of leakage in your data associated with business logic)
Overall, the difference in scores doesn't seem to me that big to worry much. So, code seems ok and such difference in scores is possible.
Btw, you didn't describe the problem/data anyhow, however you used Stratified KFold CV, so I assume you have an unbalanced dataset, but if not, ordinal KFold CV might be worth to try. In your TTS you don't have class balancing implemented but it is done by Stratified CV
来源:https://stackoverflow.com/questions/49134338/kfolds-cross-validation-vs-train-test-split