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6.1.5. scikits.learn.svm.NuSVR

class scikits.learn.svm.NuSVR(nu=0.5, C=1.0, kernel='rbf', degree=3, gamma=0.0, coef0=0.0, shrinking=True, probability=False, cache_size=100.0, eps=0.001)

Nu Support Vector Regression.

Similar to NuSVC, for regression, uses a paramter nu to control the number of support vectors. However, unlike NuSVC, where nu replaces with C, here nu replaces with the parameter p of SVR.

Parameters :

nu : float, optional

An upper bound on the fraction of training errors and a lower bound of the fraction of support vectors. Should be in the interval (0, 1]. By default 0.5 will be taken. Only available if impl=’nu_svc’

C : float, optional (default=1.0)

penalty parameter C of the error term.

kernel : string, optional

Specifies the kernel type to be used in the algorithm. one of ‘linear’, ‘poly’, ‘rbf’, ‘sigmoid’, ‘precomputed’. If none is given ‘rbf’ will be used.

degree : int, optional

degree of kernel function is significant only in poly, rbf, sigmoid

gamma : float, optional

kernel coefficient for rbf and poly, by default 1/n_features will be taken.

eps: float, optional :

precision for stopping criteria

probability: boolean, optional (False by default) :

enable probability estimates. This must be enabled prior to calling prob_predict.

coef0 : float, optional

independent term in kernel function. It is only significant in poly/sigmoid.

shrinking: boolean, optional :

wether to use the shrinking heuristic.

cache_size: float, optional :

specify the size of the cache (in MB)

See also

NuSVR

Attributes

support_ array-like, shape = [n_SV] Index of support vectors.
support_vectors_ array-like, shape = [nSV, n_features] Support vectors.
dual_coef_ array, shape = [n_classes-1, n_SV] Coefficients of the support vector in the decision function.
coef_ array, shape = [n_classes-1, n_features] Weights asigned to the features (coefficients in the primal problem). This is only available in the case of linear kernel.
intercept_ array, shape = [n_class * (n_class-1) / 2] Constants in decision function.

Methods

decision_function(T) Calculate the distance of the samples in T to the separating hyperplane.
fit(X, y) Fit the SVM model according to the given training data and parameters.
predict(T) This function does classification or regression on an array of
predict_log_proba(T) This function does classification or regression on a test vector T
predict_proba(T) This function does classification or regression on a test vector T
score(X, y) Returns the coefficient of determination of the prediction
__init__(nu=0.5, C=1.0, kernel='rbf', degree=3, gamma=0.0, coef0=0.0, shrinking=True, probability=False, cache_size=100.0, eps=0.001)
decision_function(T)

Calculate the distance of the samples in T to the separating hyperplane.

Parameters :

T : array-like, shape = [n_samples, n_features]

Returns :

T : array-like, shape = [n_samples, n_class * (n_class-1) / 2]

Returns the decision function of the sample for each class in the model.

fit(X, y)

Fit the SVM model according to the given training data and parameters.

Parameters :

X : array-like, shape = [n_samples, n_features]

Training vector, where n_samples is the number of samples and n_features is the number of features.

y : array, shape = [n_samples]

Target values. Array of floating-point numbers.

Returns :

self : object

Returns self.

predict(T)

This function does classification or regression on an array of test vectors T.

For a classification model, the predicted class for each sample in T is returned. For a regression model, the function value of T calculated is returned.

For an one-class model, +1 or -1 is returned.

Parameters :T : array-like, shape = [n_samples, n_features]
Returns :C : array, shape = [n_samples]
predict_log_proba(T)

This function does classification or regression on a test vector T given a model with probability information.

Parameters :

T : array-like, shape = [n_samples, n_features]

Returns :

T : array-like, shape = [n_samples, n_classes]

Returns the log-probabilities of the sample for each class in the model, where classes are ordered by arithmetical order.

Notes

The probability model is created using cross validation, so the results can be slightly different than those obtained by predict. Also, it will meaningless results on very small datasets.

predict_proba(T)

This function does classification or regression on a test vector T given a model with probability information.

Parameters :

T : array-like, shape = [n_samples, n_features]

Returns :

T : array-like, shape = [n_samples, n_classes]

Returns the probability of the sample for each class in the model, where classes are ordered by arithmetical order.

Notes

The probability model is created using cross validation, so the results can be slightly different than those obtained by predict. Also, it will meaningless results on very small datasets.

score(X, y)

Returns the coefficient of determination of the prediction

Parameters :

X : array-like, shape = [n_samples, n_features]

Training set.

y : array-like, shape = [n_samples]

Returns :

z : float