statsmodels.discrete.count_model.ZeroInflatedGeneralizedPoissonResults¶

class statsmodels.discrete.count_model.ZeroInflatedGeneralizedPoissonResults(model, mlefit, cov_type='nonrobust', cov_kwds=None, use_t=None)[source]¶

A results class for Zero Inflated Generalized Poisson

Parameters:

model : A DiscreteModel instance

params : array_like

The parameters of a fitted model.

hessian : array_like

The hessian of the fitted model.

scale : float

A scale parameter for the covariance matrix.

Attributes

df_resid	(float) See model definition.
df_model	(float) See model definition.
llf	(float) Value of the loglikelihood

Methods

`conf_int`([alpha, cols])	Construct confidence interval for the fitted parameters.
`cov_params`([r_matrix, column, scale, cov_p, …])	Compute the variance/covariance matrix.
`f_test`(r_matrix[, cov_p, scale, invcov])	Compute the F-test for a joint linear hypothesis.
`get_margeff`([at, method, atexog, dummy, count])	Get marginal effects of the fitted model.
`initialize`(model, params, **kwargs)	Initialize (possibly re-initialize) a Results instance.
`load`(fname)	Load a pickled results instance
`normalized_cov_params`()	See specific model class docstring
`predict`([exog, transform])	Call self.model.predict with self.params as the first argument.
`remove_data`()	Remove data arrays, all nobs arrays from result and model.
`save`(fname[, remove_data])	Save a pickle of this instance.
`set_null_options`([llnull, attach_results])	Set the fit options for the Null (constant-only) model.
`summary`([yname, xname, title, alpha, yname_list])	Summarize the Regression Results.
`summary2`([yname, xname, title, alpha, …])	Experimental function to summarize regression results.
`t_test`(r_matrix[, cov_p, scale, use_t])	Compute a t-test for a each linear hypothesis of the form Rb = q.
`t_test_pairwise`(term_name[, method, alpha, …])	Perform pairwise t_test with multiple testing corrected p-values.
`wald_test`(r_matrix[, cov_p, scale, invcov, …])	Compute a Wald-test for a joint linear hypothesis.
`wald_test_terms`([skip_single, …])	Compute a sequence of Wald tests for terms over multiple columns.

Methods

`conf_int`([alpha, cols])	Construct confidence interval for the fitted parameters.
`cov_params`([r_matrix, column, scale, cov_p, …])	Compute the variance/covariance matrix.
`f_test`(r_matrix[, cov_p, scale, invcov])	Compute the F-test for a joint linear hypothesis.
`get_margeff`([at, method, atexog, dummy, count])	Get marginal effects of the fitted model.
`initialize`(model, params, **kwargs)	Initialize (possibly re-initialize) a Results instance.
`load`(fname)	Load a pickled results instance
`normalized_cov_params`()	See specific model class docstring
`predict`([exog, transform])	Call self.model.predict with self.params as the first argument.
`remove_data`()	Remove data arrays, all nobs arrays from result and model.
`save`(fname[, remove_data])	Save a pickle of this instance.
`set_null_options`([llnull, attach_results])	Set the fit options for the Null (constant-only) model.
`summary`([yname, xname, title, alpha, yname_list])	Summarize the Regression Results.
`summary2`([yname, xname, title, alpha, …])	Experimental function to summarize regression results.
`t_test`(r_matrix[, cov_p, scale, use_t])	Compute a t-test for a each linear hypothesis of the form Rb = q.
`t_test_pairwise`(term_name[, method, alpha, …])	Perform pairwise t_test with multiple testing corrected p-values.
`wald_test`(r_matrix[, cov_p, scale, invcov, …])	Compute a Wald-test for a joint linear hypothesis.
`wald_test_terms`([skip_single, …])	Compute a sequence of Wald tests for terms over multiple columns.

Properties

`aic`	Akaike information criterion.
`bic`	Bayesian information criterion.
`bse`	The standard errors of the parameter estimates.
`fittedvalues`	Linear predictor XB.
`llf`	Log-likelihood of model
`llnull`	Value of the constant-only loglikelihood
`llr`	Likelihood ratio chi-squared statistic; -2*(llnull - llf)
`llr_pvalue`	The chi-squared probability of getting a log-likelihood ratio statistic greater than llr.
`prsquared`	McFadden’s pseudo-R-squared.
`pvalues`	The two-tailed p values for the t-stats of the params.
`resid`	Residuals
`resid_response`	Respnose residuals.
`tvalues`	Return the t-statistic for a given parameter estimate.
`use_t`	Flag indicating to use the Student’s distribution in inference.