sklearn.linear model.LarsCV

A sklearn.linear_model.LarsCV is an Cross-Validation System within sklearn.linear_model class.

• Context
  • Usage:

1) Import LarsCV model from scikit-learn : from sklearn.linear_model import LarsCV

2) Create design matrix X and response vector Y

3) Create LarsCV object: model=LarsCV()

4) Choose method(s):

• fit(X, y), fits the model using X, y as training data.
• get_params([deep]), gets parameters for this estimator.
• predict(X), predicts using the linear model.
• score(X, y[, sample_weight]), returns the coefficient of determination R^2 of the prediction.
• set_params(**params), sets the parameters of this estimator.

• Example(s):
  • …
• Counter-Example(s):
  • sklearn.linear model.LinearRegression
  • sklearn.linear_model.Lasso
  • sklearn.linear_model.Ridge.
  • sklearn.linear_model.ARDRegression.
  • sklearn.linear_model.ElasticNet.
  • sklearn.linear_model.HuberRegressor.
  • sklearn.linear_model.Lars.
• See: Regression System, Cross-Validation Task, Ridge Regression Task, Regularization Task, Bayesian Analysis.

References

2017A

• (Scikit-Learn, 2017) ⇒http://scikit-learn.org/stable/modules/generated/sklearn.linear_model.LarsCV.html
  • QUOTE: class sklearn.linear_model.LarsCV(fit_intercept=True, verbose=False, max_iter=500, normalize=True, precompute=’auto’, cv=None, max_n_alphas=1000, n_jobs=1, eps=2.2204460492503131e-16, copy_X=True, positive=False)

Cross-validated Least Angle Regression model

2017B

• (Scikit Learn, 2017) ⇒ http://scikit-learn.org/stable/modules/grid_search.html
  • QUOTE: 3.2.4.1. Model specific cross-validation

    Some models can fit data for a range of values of some parameter almost as efficiently as fitting the estimator for a single value of the parameter. This feature can be leveraged to perform a more efficient cross-validation used for model selection of this parameter.

    The most common parameter amenable to this strategy is the parameter encoding the strength of the regularizer. In this case we say that we compute the regularization path of the estimator.

Here is the list of such models:

 :: linear_model.ElasticNetCV([l1_ratio, eps,...]), Elastic Net model with iterative fitting along a regularization path;

linear_model.LarsCV([fit_intercept, ...]), Cross-validated Least Angle Regression model

linear_model.LassoCV([eps, n_alphas, ...]), Lasso linear model with iterative fitting along a regularization path;

linear_model.LassoLarsCV([fit_intercept, ...]), Cross-validated Lasso, using the LARS algorithm

linear_model.LogisticRegressionCV([Cs, ...]), Logistic Regression CV (aka logit, MaxEnt) classifier.

linear_model.MultiTaskElasticNetCV([...]), Multi-task L1/L2 ElasticNet with built-in cross-validation.

linear_model.MultiTaskLassoCV([eps, ...]), Multi-task L1/L2 Lasso with built-in cross-validation.

linear_model.OrthogonalMatchingPursuitCV([...]), Cross-validated Orthogonal Matching Pursuit model (OMP)

linear_model.RidgeCV([alphas, ...]), Ridge regression with built-in cross-validation.

linear_model.RidgeClassifierCV([alphas, ...]), Ridge classifier with built-in cross-validation.