as I understand, support vector regression in Scikit learn takes an integer for the degree. However, it seems to me as if lower degree polynomials are not considered.

Running the following example:

import numpy
from sklearn.svm import SVR
X = np.sort(5 * np.random.rand(40, 1), axis=0)
Y[::5] += 3 * (0.5 - np.random.rand(8))
svr_poly = SVR(kernel='poly', C=1e3, degree=2)
y_poly = svr_poly.fit(X, Y).predict(X)

(as copied and slightly modified from here http://scikit-learn.org/stable/auto_examples/svm/plot_svm_regression.html)

Plotting the data gives a rather poor fit (even when skipping line 5 where a random error is given to the Y-values).

It seems like lower order terms are not considered. I tried to pass a list [1, 2] for the degree parameter but then I got an error for the predict command. Is there any way to include them? Did I miss something obvious?

  • You set the penalty C to 1000, it basically penalizes any effective parameters. Try setting it to 1 or less Oct 5, 2017 at 13:12
  • It helps, but it does not solve my general question to what extent lower order terms are considered. Oct 5, 2017 at 14:06
  • This comment stats.stackexchange.com/questions/152610/… is very useful, however I cannot infere from it if lower order terms are included or not Oct 5, 2017 at 15:48

2 Answers 2


I think the lower order polynomial terms are included in the fitted model but are not visible in the plot since the C and epsilon parameters are not well suited for the data. One can usually obtain a better fit by fine-tuning the parameters with GridSearchCV. Since in this case the data is not centered the coef0 parameter also has a significant effect.

The following parameters should give a better fit for the data:

svr_poly = SVR(kernel='poly', degree=2, C=100, epsilon=0.0001, coef0=5)
  • Thanks! I thought for a "simple" model, the hyperparameters would not be that important. I will accept the answere as it lead me to an example which shows more clearly that they are included. I will provide it as an answere, too. Oct 6, 2017 at 7:09

scikit-learn.SVR runs lower order polynomial. A modification of the original example shows this clearly.

X = np.sort(2*np.random.rand(40,1)-1,axis=0)
Y = np.sin(6*X).ravel()
svr_poly1 = SVR(kernel='poly', C=1e3, degree=3)
y_poly1 = svr_poly1.fit(X, Y).predict(X)
svr_poly2 = SVR(kernel='poly', C=100, epsilon=0.0001, coef0=5, degree=3)
y_poly2 = svr_poly2.fit(X, Y).predict(X)
svr_poly3 = SVR(kernel='poly', C=100, epsilon=0.0001, coef0=5, degree=5)
y_poly3 = svr_poly3.fit(X, Y).predict(X)

Plotting this gives

Result of the different SVR algorithms with two models using order 3 but different hyperparameters and one model using order 5

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