Note
This page is a reference documentation. It only explains the class signature, and not how to use it. Please refer to the user guide for the big picture.
nilearn.decoding.DecoderRegressor#
- class nilearn.decoding.DecoderRegressor(estimator='svr', mask=None, cv=10, param_grid=None, screening_percentile=20, scoring='r2', smoothing_fwhm=None, standardize=True, target_affine=None, target_shape=None, mask_strategy='background', low_pass=None, high_pass=None, t_r=None, memory=None, memory_level=0, n_jobs=1, verbose=0)[source]#
A wrapper for popular regression strategies in neuroimaging.
The DecoderRegressor object supports regression methods. It implements a model selection scheme that averages the best models within a cross validation loop. The resulting average model is the one used as a regressor. This object also leverages the NiftiMaskers to provide a direct interface with the Nifti files on disk.
- Parameters:
- estimator: str, optional
The estimator to choose among:
ridge:
{Ridge regression}
.
ridge = RidgeCV()
ridge_regressor:
{Ridge regression}
.
Note
Same option as ridge.
svr = SVR(kernel="linear", max_iter=1e4)
lasso:
{Lasso regression}
.
lasso = LassoCV()
lasso_regressor:
{Lasso regression}
.
Note
Same option as lasso.
dummy_regressor:
{Dummy regressor}
.
dummy = DummyRegressor(strategy="mean")
Default ‘svr’.
- mask: filename, Nifti1Image, NiftiMasker, or MultiNiftiMasker, optional
Mask to be used on data. If an instance of masker is passed, then its mask and parameters will be used. If no mask is given, mask will be computed automatically from provided images by an inbuilt masker with default parameters. Refer to NiftiMasker or MultiNiftiMasker to check for default parameters. Default None
- cv: cross-validation generator or int, optional (default 10)
A cross-validation generator. See: https://scikit-learn.org/stable/modules/cross_validation.html
- param_grid: dict of str to sequence, or sequence of such, default=None
The parameter grid to explore, as a dictionary mapping estimator parameters to sequences of allowed values.
None or an empty dict signifies default parameters.
A sequence of dicts signifies a sequence of grids to search, and is useful to avoid exploring parameter combinations that make no sense or have no effect. See scikit-learn documentation for more information, for example: https://scikit-learn.org/stable/modules/grid_search.html
For DummyRegressor, parameter grid defaults to empty dictionary, class predictions are estimated using default strategy.
- screening_percentile: int, float, in the closed interval [0, 100], default=20
The percentage of brain volume that will be kept with respect to a full MNI template. In particular, if it is lower than 100, a univariate feature selection based on the Anova F-value for the input data will be performed. A float according to a percentile of the highest scores.
- scoring: str, callable or None, optional. default=’r2’
The scoring strategy to use. See the scikit-learn documentation at https://scikit-learn.org/stable/modules/model_evaluation.html#the-scoring-parameter-defining-model-evaluation-rules If callable, takes as arguments the fitted estimator, the test data (X_test) and the test target (y_test) if y is not None. e.g. scorer(estimator, X_test, y_test)
For regression, valid entries are: ‘r2’, ‘neg_mean_absolute_error’, or ‘neg_mean_squared_error’.
- smoothing_fwhm
float
, optional. If smoothing_fwhm is not None, it gives the full-width at half maximum in millimeters of the spatial smoothing to apply to the signal.
- standardize
bool
, default=True If standardize is True, the data are centered and normed: their mean is put to 0 and their variance is put to 1 in the time dimension.
- target_affine
numpy.ndarray
, default=None If specified, the image is resampled corresponding to this new affine. target_affine can be a 3x3 or a 4x4 matrix.
- target_shape
tuple
orlist
, default=None If specified, the image will be resized to match this new shape. len(target_shape) must be equal to 3.
Note
If target_shape is specified, a target_affine of shape (4, 4) must also be given.
- low_pass
float
or None, default=None Low cutoff frequency in Hertz. If specified, signals above this frequency will be filtered out. If None, no low-pass filtering will be performed.
- high_pass
float
, default=None High cutoff frequency in Hertz. If specified, signals below this frequency will be filtered out.
- t_r
float
or None, default=None Repetition time, in seconds (sampling period). Set to None if not provided.
- mask_strategy{“background”, “epi”, “whole-brain-template”,”gm-template”, “wm-template”}, optional
The strategy used to compute the mask:
“background”: Use this option if your images present a clear homogeneous background.
“epi”: Use this option if your images are raw EPI images
“whole-brain-template”: This will extract the whole-brain part of your data by resampling the MNI152 brain mask for your data’s field of view.
Note
This option is equivalent to the previous ‘template’ option which is now deprecated.
“gm-template”: This will extract the gray matter part of your data by resampling the corresponding MNI152 template for your data’s field of view.
New in version 0.8.1.
“wm-template”: This will extract the white matter part of your data by resampling the corresponding MNI152 template for your data’s field of view.
New in version 0.8.1.
Note
This parameter will be ignored if a mask image is provided.
Note
Depending on this value, the mask will be computed from
nilearn.masking.compute_background_mask
,nilearn.masking.compute_epi_mask
, ornilearn.masking.compute_brain_mask
.Default=’background’.
- memoryinstance of
joblib.Memory
,str
, orpathlib.Path
Used to cache the masking process. By default, no caching is done. If a
str
is given, it is the path to the caching directory.- memory_level
int
, default=0 Rough estimator of the amount of memory used by caching. Higher value means more memory for caching. Zero means no caching.
- n_jobs
int
, default=1 The number of CPUs to use to do the computation. -1 means ‘all CPUs’.
- verbose
int
, default=0 Verbosity level (0 means no message).
See also
nilearn.decoding.Decoder
classification strategies for Neuroimaging,
nilearn.decoding.FREMRegressor
State of the art regression pipeline for Neuroimaging
nilearn.decoding.SpaceNetClassifier
Graph-Net and TV-L1 priors/penalties
- __init__(estimator='svr', mask=None, cv=10, param_grid=None, screening_percentile=20, scoring='r2', smoothing_fwhm=None, standardize=True, target_affine=None, target_shape=None, mask_strategy='background', low_pass=None, high_pass=None, t_r=None, memory=None, memory_level=0, n_jobs=1, verbose=0)[source]#
- decision_function(X)[source]#
Predict class labels for samples in X.
- Parameters:
- XNiimg-like,
list
of either Niimg-like objects orstr
or path-like See Input and output: neuroimaging data representation. Data on prediction is to be made. If this is a list, the affine is considered the same for all.
- XNiimg-like,
- Returns:
- y_pred:
numpy.ndarray
, shape (n_samples,) Predicted class label per sample.
- y_pred:
- fit(X, y, groups=None)[source]#
Fit the decoder (learner).
- Parameters:
- X: list of Niimg-like or SurfaceImage objects
See Input and output: neuroimaging data representation. Data on which model is to be fitted. If this is a list, the affine is considered the same for all.
- y: numpy.ndarray of shape=(n_samples) or list of length n_samples
The dependent variable (age, sex, IQ, yes/no, etc.). Target variable to predict. Must have exactly as many elements as 3D images in niimg.
- groups: None
Group labels for the samples used while splitting the dataset into train/test set. Default None.
Note that this parameter must be specified in some scikit-learn cross-validation generators to calculate the number of splits, e.g. sklearn.model_selection.LeaveOneGroupOut or sklearn.model_selection.LeavePGroupsOut.
For more details see https://scikit-learn.org/stable/modules/cross_validation.html#cross-validation-iterators-for-grouped-data
- Attributes:
- masker_instance of NiftiMasker, MultiNiftiMasker, or SurfaceMasker
The masker used to mask the data.
- mask_img_Nifti1Image or SurfaceImage
Mask computed by the masker object.
- classes_numpy.ndarray
Classes to predict. For classification only.
- screening_percentile_float
Screening percentile corrected according to volume of mask, relative to the volume of standard brain.
- coef_numpy.ndarray, shape=(n_classes, n_features)
Contains the mean of the models weight vector across fold for each class. Returns None for Dummy estimators.
- coef_img_dict of Nifti1Image
Dictionary containing coef_ with class names as keys, and coef_ transformed in Nifti1Images as values. In the case of a regression, it contains a single Nifti1Image at the key ‘beta’. Ignored if Dummy estimators are provided.
- intercept_ndarray, shape (nclasses,)
Intercept (a.k.a. bias) added to the decision function. Ignored if Dummy estimators are provided.
- cv_list of pairs of lists
List of the (n_folds,) folds. For the corresponding fold, each pair is composed of two lists of indices, one for the train samples and one for the test samples.
- std_coef_numpy.ndarray, shape=(n_classes, n_features)
Contains the standard deviation of the models weight vector across fold for each class. Note that folds are not independent, see https://scikit-learn.org/stable/modules/cross_validation.html#cross-validation-iterators-for-grouped-data Ignored if Dummy estimators are provided.
- std_coef_img_dict of Nifti1Image
Dictionary containing std_coef_ with class names as keys, and coef_ transformed in Nifti1Image as values. In the case of a regression, it contains a single Nifti1Image at the key ‘beta’. Ignored if Dummy estimators are provided.
- cv_params_dict of lists
Best point in the parameter grid for each tested fold in the inner cross validation loop. The grid is empty when Dummy estimators are provided. Note: if the estimator used its built-in cross-validation, this will include an additional key for the single best value estimated by the built-in cross-validation (‘best_C’ for LogisticRegressionCV and ‘best_alpha’ for RidgeCV/RidgeClassifierCV/LassoCV), in addition to the input list of values.
- scorer_function
Scorer function used on the held out data to choose the best parameters for the model.
- cv_scores_dict, (classes, n_folds)
Scores (misclassification) for each parameter, and on each fold
- n_outputs_int
Number of outputs (column-wise)
- dummy_output_: ndarray, shape=(n_classes, 2)
or shape=(1, 1) for regression Contains dummy estimator attributes after class predictions using strategies of DummyClassifier (class_prior) and DummyRegressor (constant) from scikit-learn. This attribute is necessary for estimating class predictions after fit. Returns None if non-dummy estimators are provided.
- get_metadata_routing()#
Get metadata routing of this object.
Please check User Guide on how the routing mechanism works.
- Returns:
- routingMetadataRequest
A
MetadataRequest
encapsulating routing information.
- get_params(deep=True)#
Get parameters for this estimator.
- Parameters:
- deepbool, default=True
If True, will return the parameters for this estimator and contained subobjects that are estimators.
- Returns:
- paramsdict
Parameter names mapped to their values.
- predict(X)[source]#
Predict a label for all X vectors indexed by the first axis.
- Parameters:
- XNiimg-like,
list
of either Niimg-like objects orstr
or path-like See Input and output: neuroimaging data representation. Data on which prediction is to be made.
- XNiimg-like,
- Returns:
- array, shape=(n_samples,) if n_classes == 2 else (n_samples, n_classes)
Confidence scores per (sample, class) combination. In the binary case, confidence score for self.classes_[1] where >0 means this class would be predicted.
- score(X, y, *args)[source]#
Compute the prediction score using the scoring metric defined by the scoring attribute.
- Parameters:
- XNiimg-like,
list
of either Niimg-like objects orstr
or path-like See Input and output: neuroimaging data representation. Data on which prediction is to be made.
- y
numpy.ndarray
Target values.
- argsOptional arguments that can be passed to
scoring metrics. Example: sample_weight.
- XNiimg-like,
- Returns:
- scorefloat
Prediction score.
- set_fit_request(*, groups='$UNCHANGED$')#
Request metadata passed to the
fit
method.Note that this method is only relevant if
enable_metadata_routing=True
(seesklearn.set_config
). Please see User Guide on how the routing mechanism works.The options for each parameter are:
True
: metadata is requested, and passed tofit
if provided. The request is ignored if metadata is not provided.False
: metadata is not requested and the meta-estimator will not pass it tofit
.None
: metadata is not requested, and the meta-estimator will raise an error if the user provides it.str
: metadata should be passed to the meta-estimator with this given alias instead of the original name.
The default (
sklearn.utils.metadata_routing.UNCHANGED
) retains the existing request. This allows you to change the request for some parameters and not others.New in version 1.3.
Note
This method is only relevant if this estimator is used as a sub-estimator of a meta-estimator, e.g. used inside a
Pipeline
. Otherwise it has no effect.- Parameters:
- groupsstr, True, False, or None, default=sklearn.utils.metadata_routing.UNCHANGED
Metadata routing for
groups
parameter infit
.
- Returns:
- selfobject
The updated object.
- set_params(**params)#
Set the parameters of this estimator.
The method works on simple estimators as well as on nested objects (such as
Pipeline
). The latter have parameters of the form<component>__<parameter>
so that it’s possible to update each component of a nested object.- Parameters:
- **paramsdict
Estimator parameters.
- Returns:
- selfestimator instance
Estimator instance.
Examples using nilearn.decoding.DecoderRegressor
#
Voxel-Based Morphometry on Oasis dataset