statsmodels.discrete.discrete_model.NegativeBinomialP

class statsmodels.discrete.discrete_model.NegativeBinomialP(endog, exog, p=2, offset=None, exposure=None, missing='none', check_rank=True, **kwargs)[source]

Generalized Negative Binomial (NB-P) Model

Parameters:
endogarray_like

A 1-d endogenous response variable. The dependent variable.

exogarray_like

A nobs x k array where nobs is the number of observations and k is the number of regressors. An intercept is not included by default and should be added by the user. See statsmodels.tools.add_constant.

pscalar

P denotes parameterizations for NB regression. p=1 for NB-1 and p=2 for NB-2. Default is p=2.

offsetarray_like

Offset is added to the linear prediction with coefficient equal to 1.

exposurearray_like

Log(exposure) is added to the linear prediction with coefficient equal to 1. missing : str Available options are ‘none’, ‘drop’, and ‘raise’. If ‘none’, no nan checking is done. If ‘drop’, any observations with nans are dropped. If ‘raise’, an error is raised. Default is ‘none’.

check_rankbool

Check exog rank to determine model degrees of freedom. Default is True. Setting to False reduces model initialization time when exog.shape[1] is large.

Attributes:
endogndarray

A reference to the endogenous response variable

exogndarray

A reference to the exogenous design.

pscalar

P denotes parameterizations for NB-P regression. p=1 for NB-1 and p=2 for NB-2. Default is p=1.

Methods

cdf(X)

The cumulative distribution function of the model.

convert_params(params, mu)

cov_params_func_l1(likelihood_model, xopt, ...)

Computes cov_params on a reduced parameter space corresponding to the nonzero parameters resulting from the l1 regularized fit.

fit([start_params, method, maxiter, ...])

use_transparams : bool

fit_regularized([start_params, method, ...])

Fit the model using a regularized maximum likelihood.

from_formula(formula, data[, subset, drop_cols])

Create a Model from a formula and dataframe.

get_distribution(params[, exog, exposure, ...])

get frozen instance of distribution Get frozen instance of distribution based on predicted parameters.

hessian(params)

Generalized Negative Binomial (NB-P) model hessian maxtrix of the log-likelihood

hessian_factor(params)

Generalized Negative Binomial (NB-P) model hessian maxtrix of the log-likelihood

information(params)

Fisher information matrix of model.

initialize()

Initialize is called by statsmodels.model.LikelihoodModel.__init__ and should contain any preprocessing that needs to be done for a model.

loglike(params)

Loglikelihood of Generalized Negative Binomial (NB-P) model

loglikeobs(params)

Loglikelihood for observations of Generalized Negative Binomial (NB-P) model

pdf(X)

The probability density (mass) function of the model.

predict(params[, exog, exposure, offset, ...])

Predict response variable of a model given exogenous variables.

score(params)

Generalized Negative Binomial (NB-P) model score (gradient) vector of the log-likelihood

score_factor(params[, endog])

Generalized Negative Binomial (NB-P) model score (gradient) vector of the log-likelihood for each observations.

score_obs(params)

Generalized Negative Binomial (NB-P) model score (gradient) vector of the log-likelihood for each observations.

Properties

endog_names

Names of endogenous variables.

exog_names

Names of exogenous variables.


Last update: Oct 03, 2024