RandomIntervals¶
- class RandomIntervals(n_intervals=100, min_interval_length=3, max_interval_length=inf, features=None, dilation=None, random_state=None, n_jobs=1, parallel_backend=None)[source]¶
Random interval feature transformer.
Extracts intervals with random length, position and dimension from series in fit. Transforms each interval subseries using the given transformer(s)/features and concatenates them into a feature vector in transform.
Identical intervals are pruned at the end of fit, as such the number of features may be less than expected from n_intervals.
The output type is a 2D numpy array where rows are input cases and columns are the concatenated interval features.
- Parameters:
- n_intervalsint, default=100,
The number of intervals of random length, position and dimension to be extracted.
- min_interval_lengthint, default=3
The minimum length of extracted intervals. Minimum value of 3.
- max_interval_lengthint, default=3
The maximum length of extracted intervals. Minimum value of min_interval_length.
- featuresaeon transformer, a function taking a 2d numpy array parameter, or list
of said transformers and functions, default=None
Transformers and functions used to extract features from selected intervals. If None, defaults to [mean, median, min, max, std, 25% quantile, 75% quantile]
- dilationint, list or None, default=None
Add dilation to extracted intervals. No dilation is added if None or 1. If a list of ints, a random dilation value is selected from the list for each interval.
The dilation value is selected after the interval star and end points. If the number of values in the dilated interval is less than the min_interval_length, the amount of dilation applied is reduced.
- random_stateNone, int or instance of RandomState, default=None
Seed or RandomState object used for random number generation. If random_state is None, use the RandomState singleton used by np.random. If random_state is an int, use a new RandomState instance seeded with seed.
- n_jobsint, default=1
The number of jobs to run in parallel for both fit and transform functions. -1 means using all processors.
- parallel_backendstr, ParallelBackendBase instance or None, default=None
Specify the parallelisation backend implementation in joblib, if None a ‘prefer’ value of “threads” is used by default. Valid options are “loky”, “multiprocessing”, “threading” or a custom backend. See the joblib Parallel documentation for more details.
- Attributes:
- n_cases_int
The number of train cases.
- n_channels_int
The number of dimensions per case.
- n_timepoints_int
The length of each series.
- n_intervals_int
The number of intervals extracted after pruning identical intervals.
- intervals_list of tuples
Contains information for each feature extracted in fit. Each tuple contains the interval start, interval end, interval dimension, the feature(s) extracted and the dilation. Length will be n_intervals*len(features).
See also
Examples
>>> from aeon.transformations.collection.interval_based import RandomIntervals >>> from aeon.testing.data_generation import make_example_3d_numpy >>> X = make_example_3d_numpy(n_cases=4, n_channels=1, n_timepoints=8, ... return_y=False, random_state=0) >>> tnf = RandomIntervals(n_intervals=2, random_state=0) >>> tnf.fit(X) RandomIntervals(...) >>> print(tnf.transform(X)[0]) [1.04753424 0.14925939 0.8473096 1.20552675 1.08976637 0.96853798 1.14764656 1.07628806 0.18170775 0.8473096 1.29178823 1.08976637 0.96853798 1.1907773 ]
Methods
clone
([random_state])Obtain a clone of the object with the same hyperparameters.
fit
(X[, y])Fit transformer to X, optionally using y if supervised.
fit_transform
(X[, y])Fit to data, then transform it.
get_class_tag
(tag_name[, raise_error, ...])Get tag value from estimator class (only class tags).
Get class tags from estimator class and all its parent classes.
get_fitted_params
([deep])Get fitted parameters.
Sklearn metadata routing.
get_params
([deep])Get parameters for this estimator.
get_tag
(tag_name[, raise_error, ...])Get tag value from estimator class.
get_tags
()Get tags from estimator.
inverse_transform
(X[, y])Inverse transform X and return an inverse transformed version.
reset
([keep])Reset the object to a clean post-init state.
set_features_to_transform
(arr[, raise_error])Set transform_features to the given array.
set_params
(**params)Set the parameters of this estimator.
set_tags
(**tag_dict)Set dynamic tags to given values.
transform
(X[, y])Transform X and return a transformed version.
- set_features_to_transform(arr, raise_error=True)[source]¶
Set transform_features to the given array.
Each index in the list corresponds to the index of an interval, True intervals are included in the transform, False intervals skipped and are set to 0.
If any transformers are in features, they must also have a “transform_features” or “_transform_features” attribute as well as a “n_transformed_features” attribute. The input array should contain an item for each of the transformers “n_transformed_features” output features.
- Parameters:
- arrlist of bools
A list of intervals to skip.
- raise_errorbool, default=True
Whether to raise and error or return None if input or transformers are invalid.
- Returns:
- completed: bool
Whether the operation was successful.
- clone(random_state=None)[source]¶
Obtain a clone of the object with the same hyperparameters.
A clone is a different object without shared references, in post-init state. This function is equivalent to returning
sklearn.clone
of self. Equal in value totype(self)(**self.get_params(deep=False))
.- Parameters:
- random_stateint, RandomState instance, or None, default=None
Sets the random state of the clone. If None, the random state is not set. If int, random_state is the seed used by the random number generator. If RandomState instance, random_state is the random number generator.
- Returns:
- estimatorobject
Instance of
type(self)
, clone of self (see above)
- fit(X, y=None)[source]¶
Fit transformer to X, optionally using y if supervised.
- State change:
Changes state to “fitted”.
Writes to self: _is_fitted : flag is set to True. model attributes (ending in “_”) : dependent on estimator
- Parameters:
- Xnp.ndarray or list
Input data, any number of channels, equal length series of shape
( n_cases, n_channels, n_timepoints)
or list of numpy arrays (any number of channels, unequal length series) of shape[n_cases]
, 2D np.array(n_channels, n_timepoints_i)
, wheren_timepoints_i
is length of seriesi
. Other types are allowed and converted into one of the above.Different estimators have different capabilities to handle different types of input. If self.get_tag(“capability:multivariate”)` is False, they cannot handle multivariate series. If
self.get_tag( "capability:unequal_length")
is False, they cannot handle unequal length input. In both situations, aValueError
is raised if X has a characteristic that the estimator does not have the capability to handle.Data to fit transform to, of valid collection type.
- ynp.ndarray, default=None
1D np.array of float or str, of shape
(n_cases)
- class labels (ground truth) for fitting indices corresponding to instance indices in X. If None, no labels are used in fitting.
- Returns:
- selfa fitted instance of the estimator
- fit_transform(X, y=None)[source]¶
Fit to data, then transform it.
Fits the transformer to X and y and returns a transformed version of X.
- State change:
Changes state to “fitted”.
Writes to self: _is_fitted : flag is set to True. model attributes (ending in “_”) : dependent on estimator.
- Parameters:
- Xnp.ndarray or list
Input data, any number of channels, equal length series of shape
( n_cases, n_channels, n_timepoints)
or list of numpy arrays (any number of channels, unequal length series) of shape[n_cases]
, 2D np.array(n_channels, n_timepoints_i)
, wheren_timepoints_i
is length of seriesi
. Other types are allowed and converted into one of the above.Different estimators have different capabilities to handle different types of input. If self.get_tag(“capability:multivariate”)` is False, they cannot handle multivariate series. If
self.get_tag( "capability:unequal_length")
is False, they cannot handle unequal length input. In both situations, aValueError
is raised if X has a characteristic that the estimator does not have the capability to handle.Data to fit transform to, of valid collection type.
- ynp.ndarray, default=None
1D np.array of float or str, of shape
(n_cases)
- class labels (ground truth) for fitting indices corresponding to instance indices in X. If None, no labels are used in fitting.
- Returns:
- transformed version of X
- classmethod get_class_tag(tag_name, raise_error=True, tag_value_default=None)[source]¶
Get tag value from estimator class (only class tags).
- Parameters:
- tag_namestr
Name of tag value.
- raise_errorbool, default=True
Whether a ValueError is raised when the tag is not found.
- tag_value_defaultany type, default=None
Default/fallback value if tag is not found and error is not raised.
- Returns:
- tag_value
Value of the
tag_name
tag in cls. If not found, returns an error ifraise_error
is True, otherwise it returnstag_value_default
.
- Raises:
- ValueError
if
raise_error
is True andtag_name
is not inself.get_tags().keys()
Examples
>>> from aeon.classification import DummyClassifier >>> DummyClassifier.get_class_tag("capability:multivariate") True
- classmethod get_class_tags()[source]¶
Get class tags from estimator class and all its parent classes.
- Returns:
- collected_tagsdict
Dictionary of tag name and tag value pairs. Collected from
_tags
class attribute via nested inheritance. These are not overridden by dynamic tags set byset_tags
or class__init__
calls.
- get_fitted_params(deep=True)[source]¶
Get fitted parameters.
- State required:
Requires state to be “fitted”.
- Parameters:
- deepbool, default=True
If True, will return the fitted parameters for this estimator and contained subobjects that are estimators.
- Returns:
- fitted_paramsdict
Fitted parameter names mapped to their values.
- get_params(deep=True)[source]¶
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.
- get_tag(tag_name, raise_error=True, tag_value_default=None)[source]¶
Get tag value from estimator class.
Includes dynamic and overridden tags.
- Parameters:
- tag_namestr
Name of tag to be retrieved.
- raise_errorbool, default=True
Whether a ValueError is raised when the tag is not found.
- tag_value_defaultany type, default=None
Default/fallback value if tag is not found and error is not raised.
- Returns:
- tag_value
Value of the
tag_name
tag in self. If not found, returns an error ifraise_error
is True, otherwise it returnstag_value_default
.
- Raises:
- ValueError
if raise_error is
True
andtag_name
is not inself.get_tags().keys()
Examples
>>> from aeon.classification import DummyClassifier >>> d = DummyClassifier() >>> d.get_tag("capability:multivariate") True
- get_tags()[source]¶
Get tags from estimator.
Includes dynamic and overridden tags.
- Returns:
- collected_tagsdict
Dictionary of tag name and tag value pairs. Collected from
_tags
class attribute via nested inheritance and then any overridden and new tags from__init__
orset_tags
.
- inverse_transform(X, y=None)[source]¶
Inverse transform X and return an inverse transformed version.
- Currently it is assumed that only transformers with tags
“input_data_type”=”Series”, “output_data_type”=”Series”,
can have an inverse_transform.
- State required:
Requires state to be “fitted”.
- Accesses in self:
_is_fitted : must be True fitted model attributes (ending in “_”) : accessed by _inverse_transform
- Parameters:
- Xnp.ndarray or list
Input data, any number of channels, equal length series of shape
( n_cases, n_channels, n_timepoints)
or list of numpy arrays (any number of channels, unequal length series) of shape[n_cases]
, 2D np.array(n_channels, n_timepoints_i)
, wheren_timepoints_i
is length of seriesi
. Other types are allowed and converted into one of the above.Different estimators have different capabilities to handle different types of input. If self.get_tag(“capability:multivariate”)` is False, they cannot handle multivariate series. If
self.get_tag( "capability:unequal_length")
is False, they cannot handle unequal length input. In both situations, aValueError
is raised if X has a characteristic that the estimator does not have the capability to handle.Data to fit transform to, of valid collection type.
- ynp.ndarray, default=None
1D np.array of float or str, of shape
(n_cases)
- class labels (ground truth) for fitting indices corresponding to instance indices in X. If None, no labels are used in fitting.
- Returns:
- inverse transformed version of X
of the same type as X
- reset(keep=None)[source]¶
Reset the object to a clean post-init state.
After a
self.reset()
call, self is equal or similar in value totype(self)(**self.get_params(deep=False))
, assuming no other attributes were kept usingkeep
.- Detailed behaviour:
- removes any object attributes, except:
hyper-parameters (arguments of
__init__
) object attributes containing double-underscores, i.e., the string “__”
runs
__init__
with current values of hyperparameters (result ofget_params
)- Not affected by the reset are:
object attributes containing double-underscores class and object methods, class attributes any attributes specified in the
keep
argument
- Parameters:
- keepNone, str, or list of str, default=None
If None, all attributes are removed except hyperparameters. If str, only the attribute with this name is kept. If list of str, only the attributes with these names are kept.
- Returns:
- selfobject
Reference to self.
- set_params(**params)[source]¶
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.
- set_tags(**tag_dict)[source]¶
Set dynamic tags to given values.
- Parameters:
- **tag_dictdict
Dictionary of tag name and tag value pairs.
- Returns:
- selfobject
Reference to self.
- transform(X, y=None)[source]¶
Transform X and return a transformed version.
- State required:
Requires state to be “fitted”.
Accesses in self: _is_fitted : must be True fitted model attributes (ending in “_”) : must be set, accessed by _transform
- Parameters:
- Xnp.ndarray or list
Input data, any number of channels, equal length series of shape
( n_cases, n_channels, n_timepoints)
or list of numpy arrays (any number of channels, unequal length series) of shape[n_cases]
, 2D np.array(n_channels, n_timepoints_i)
, wheren_timepoints_i
is length of seriesi
. Other types are allowed and converted into one of the above.Different estimators have different capabilities to handle different types of input. If self.get_tag(“capability:multivariate”)` is False, they cannot handle multivariate series. If
self.get_tag( "capability:unequal_length")
is False, they cannot handle unequal length input. In both situations, aValueError
is raised if X has a characteristic that the estimator does not have the capability to handle.Data to fit transform to, of valid collection type.
- ynp.ndarray, default=None
1D np.array of float or str, of shape
(n_cases)
- class labels (ground truth) for fitting indices corresponding to instance indices in X. If None, no labels are used in fitting.
- Returns:
- transformed version of X