sklearn_lvq.MrslvqModel

class sklearn_lvq.MrslvqModel(prototypes_per_class=1, initial_prototypes=None, initial_matrix=None, regularization=0.0, initialdim=None, sigma=1, max_iter=1000, gtol=1e-05, display=False, random_state=None)

Matrix Robust Soft Learning Vector Quantization

Parameters

prototypes_per_classint or list of int, optional (default=1)

Number of prototypes per class. Use list to specify different numbers per class.

initial_prototypesarray-like,

shape = [n_prototypes, n_features + 1], optional

Prototypes to start with. If not given initialization near the class means. Class label must be placed as last entry of each prototype

initial_matrixarray-like, shape = [dim, n_features], optional

Relevance matrix to start with. If not given random initialization for rectangular matrix and unity for squared matrix.

regularizationfloat, optional (default=0.0)

Value between 0 and 1. Regularization is done by the log determinant of the relevance matrix. Without regularization relevances may degenerate to zero.

initialdimint, optional (default=nb_features)

Maximum rank or projection dimensions

sigmafloat, optional (default=0.5)

Variance for the distribution.

max_iterint, optional (default=500)

The maximum number of iterations.

gtolfloat, optional (default=1e-5)

Gradient norm must be less than gtol before successful termination of l-bfgs-b.

displayboolean, optional (default=False)

Print information about the bfgs steps.

random_stateint, RandomState instance or None, optional (default=None)

If int, random_state is the seed used by the random number generator; If RandomState instance, random_state is the random number generator; If None, the random number generator is the RandomState instance used by np.random.

Attributes

w_array-like, shape = [n_prototypes, n_features]

Prototype vector, where n_prototypes in the number of prototypes and n_features is the number of features

c_w_array-like, shape = [n_prototypes]

Prototype classes

classes_array-like, shape = [n_classes]

Array containing labels.

dim_int

Maximum rank or projection dimensions

omega_array-like, shape = [dim, n_features]

Relevance matrix

See also

RslvqModel, LmrslvqModel

Methods

fit(x, y)	Fit the LVQ model to the given training data and parameters using l-bfgs-b.
get_params([deep])	Get parameters for this estimator.
posterior(y, x)	calculate the posterior for x:
predict(x)	Predict class membership index for each input sample.
project(x, dims[, print_variance_covered])	Projects the data input data X using the relevance matrix of trained model to dimension dim
score(X, y[, sample_weight])	Return the mean accuracy on the given test data and labels.
set_params(**params)	Set the parameters of this estimator.

__init__(prototypes_per_class=1, initial_prototypes=None, initial_matrix=None, regularization=0.0, initialdim=None, sigma=1, max_iter=1000, gtol=1e-05, display=False, random_state=None)

Initialize self. See help(type(self)) for accurate signature.