pyFTS.common.transformations package¶
Module contents¶
Submodules¶
pyFTS.common.transformations.adapativeexpectation module¶
pyFTS.common.transformations.boxcox module¶
- class pyFTS.common.transformations.boxcox.BoxCox(plambda)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
Box-Cox power transformation
y’(t) = log( y(t) ) y(t) = exp( y’(t) )
- apply(data, param=None, **kwargs)[source]¶
Apply the transformation on input data
- Parameters
data – input data
param –
kwargs –
- Returns
numpy array with transformed data
- inverse(data, param=None, **kwargs)[source]¶
- Parameters
data – transformed data
param –
kwargs –
- Returns
numpy array with inverse transformed data
- property parameters¶
pyFTS.common.transformations.differential module¶
- class pyFTS.common.transformations.differential.Differential(lag)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
Differentiation data transform
y’(t) = y(t) - y(t-1) y(t) = y(t-1) + y’(t)
- apply(data, param=None, **kwargs)[source]¶
Apply the transformation on input data
- Parameters
data – input data
param –
kwargs –
- Returns
numpy array with transformed data
- inverse(data, param, **kwargs)[source]¶
- Parameters
data – transformed data
param –
kwargs –
- Returns
numpy array with inverse transformed data
- property parameters¶
pyFTS.common.transformations.normalization module¶
- class pyFTS.common.transformations.normalization.Normalization(**kwargs)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
- apply(data, param=None, **kwargs)[source]¶
Apply the transformation on input data
- Parameters
data – input data
param –
kwargs –
- Returns
numpy array with transformed data
pyFTS.common.transformations.roi module¶
- class pyFTS.common.transformations.roi.ROI(**kwargs)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
Return of Investment (ROI) transformation. Retrieved from Sadaei and Lee (2014) - Multilayer Stock Forecasting Model Using Fuzzy Time Series
y’(t) = ( y(t) - y(t-1) ) / y(t-1) y(t) = ( y(t-1) * y’(t) ) + y(t-1)
pyFTS.common.transformations.scale module¶
- class pyFTS.common.transformations.scale.Scale(min=0, max=1)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
Scale data inside a interval [min, max]
- apply(data, param=None, **kwargs)[source]¶
Apply the transformation on input data
- Parameters
data – input data
param –
kwargs –
- Returns
numpy array with transformed data
- inverse(data, param, **kwargs)[source]¶
- Parameters
data – transformed data
param –
kwargs –
- Returns
numpy array with inverse transformed data
- property parameters¶
pyFTS.common.transformations.smoothing module¶
- class pyFTS.common.transformations.smoothing.AveragePooling(**kwargs)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
- class pyFTS.common.transformations.smoothing.ExponentialSmoothing(**kwargs)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
- class pyFTS.common.transformations.smoothing.MaxPooling(**kwargs)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
- class pyFTS.common.transformations.smoothing.MovingAverage(**kwargs)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
pyFTS.common.transformations.som module¶
Kohonen Self Organizing Maps for Fuzzy Time Series
- class pyFTS.common.transformations.som.SOMTransformation(grid_dimension: Tuple, **kwargs)[source]¶
Bases:
pyFTS.common.transformations.transformation.Transformation
- apply(data: pandas.core.frame.DataFrame, param=None, **kwargs)[source]¶
Transform a M-dimensional dataset into a 3-dimensional dataset, where one dimension is the endogen variable If endogen_variable = None, the last column will be the endogen_variable.
- Args:
data (pd.DataFrame): M-Dimensional dataset endogen_variable (str): column of dataset names (Tuple): names for new columns created by SOM Transformation. param: **kwargs: params of SOM’s train process
percentage_train (float). Percentage of dataset that will be used for train SOM network. default: 0.7 leaning_rate (float): leaning rate of SOM network. default: 0.01 epochs: epochs of SOM network. default: 10000
Returns:
pyFTS.common.transformations.transformation module¶
- class pyFTS.common.transformations.transformation.Transformation(**kwargs)[source]¶
Bases:
object
Data transformation used on pre and post processing of the FTS
- apply(data, param, **kwargs)[source]¶
Apply the transformation on input data
- Parameters
data – input data
param –
kwargs –
- Returns
numpy array with transformed data
- inverse(data, param, **kwargs)[source]¶
- Parameters
data – transformed data
param –
kwargs –
- Returns
numpy array with inverse transformed data
- is_multivariate¶
detemine if this transformation can be applied to multivariate data