.. currentmodule:: statsmodels.regression.linear_model
.. _regression:
Linear Regression
=================
Linear models with independently and identically distributed errors, and for
errors with heteroscedasticity or autocorrelation. This module allows
estimation by ordinary least squares (OLS), weighted least squares (WLS),
generalized least squares (GLS), and feasible generalized least squares with
autocorrelated AR(p) errors.
See `Module Reference`_ for commands and arguments.
Examples
--------
::
# Load modules and data
import numpy as np
import statsmodels.api as sm
spector_data = sm.datasets.spector.load()
spector_data.exog = sm.add_constant(spector_data.exog, prepend=False)
# Fit and summarize OLS model
mod = sm.OLS(spector_data.endog, spector_data.exog)
res = mod.fit()
print(res.summary())
Detailed examples can be found here:
.. toctree::
:maxdepth: 1
examples/notebooks/generated/ols
examples/notebooks/generated/wls
examples/notebooks/generated/gls
Technical Documentation
-----------------------
The statistical model is assumed to be
:math:`Y = X\beta + \mu`, where :math:`\mu\sim N\left(0,\sigma^{2}\Sigma\right)`
depending on the assumption on :math:`\Sigma`, we have currently four classes available
* GLS : generalized least squares for arbitrary covariance :math:`\Sigma`
* OLS : ordinary least squares for i.i.d. errors :math:`\Sigma=\textbf{I}`
* WLS : weighted least squares for heteroskedastic errors :math:`\text{diag}\left (\Sigma\right)`
* GLSAR : feasible generalized least squares with autocorrelated AR(p) errors
:math:`\Sigma=\Sigma\left(\rho\right)`
All regression models define the same methods and follow the same structure,
and can be used in a similar fashion. Some of them contain additional model
specific methods and attributes.
GLS is the superclass of the other regression classes.
.. Class hierachy: TODO
.. yule_walker is not a full model class, but a function that estimate the
.. parameters of a univariate autoregressive process, AR(p). It is used in GLSAR,
.. but it can also be used independently of any models. yule_walker only
.. calculates the estimates and the standard deviation of the lag parameters but
.. not the additional regression statistics. We hope to include yule-walker in
.. future in a separate univariate time series class. A similar result can be
.. obtained with GLSAR if only the constant is included as regressors. In this
.. case the parameter estimates of the lag estimates are not reported, however
.. additional statistics, for example aic, become available.
References
^^^^^^^^^^
General reference for regression models:
* D.C. Montgomery and E.A. Peck. "Introduction to Linear Regression Analysis." 2nd. Ed., Wiley, 1992.
Econometrics references for regression models:
* R.Davidson and J.G. MacKinnon. "Econometric Theory and Methods," Oxford, 2004.
* W.Green. "Econometric Analysis," 5th ed., Pearson, 2003.
.. toctree::
.. :maxdepth: 1
..
.. regression_techn1
Attributes
^^^^^^^^^^
The following is more verbose description of the attributes which is mostly common to all
regression classes
pinv_wexog : array
| `pinv_wexog` is the `p` x `n` Moore-Penrose pseudoinverse of the
| whitened design matrix. Approximately equal to
| :math:`\left(X^{T}\Sigma^{-1}X\right)^{-1}X^{T}\Psi`
| where :math:`\Psi` is given by :math:`\Psi\Psi^{T}=\Sigma^{-1}`
cholsimgainv : array
| n x n upper triangular matrix such that
| :math:`\Psi\Psi^{T}=\Sigma^{-1}`
| :math:`cholsigmainv=\Psi^{T}`
df_model : float
The model degrees of freedom is equal to `p` - 1, where `p` is the number
of regressors. Note that the intercept is not counted as using a degree
of freedom here.
df_resid : float
The residual degrees of freedom is equal to the number of observations
`n` less the number of parameters `p`. Note that the intercept is counted as
using a degree of freedom here.
llf : float
The value of the likelihood function of the fitted model.
nobs : float
The number of observations `n`
normalized_cov_params : array
| A `p` x `p` array
| :math:`(X^{T}\Sigma^{-1}X)^{-1}`
sigma : array
| `sigma` is the n x n strucutre of the covariance matrix of the error terms
| :math:`\mu\sim N\left(0,\sigma^{2}\Sigma\right)`
wexog : array
| `wexog` is the whitened design matrix.
| :math:`\Psi^{T}X`
wendog : array
| The whitened response variable.
| :math:`\Psi^{T}Y`
Module Reference
----------------
Model Classes
^^^^^^^^^^^^^
.. autosummary::
:toctree: generated/
OLS
GLS
WLS
GLSAR
yule_walker
.. currentmodule:: statsmodels.regression.quantile_regression
.. autosummary::
:toctree: generated/
QuantReg
Results Classes
^^^^^^^^^^^^^^^
Fitting a linear regression model returns a results class. OLS has a
specific results class with some additional methods compared to the
results class of the other linear models.
.. currentmodule:: statsmodels.regression.linear_model
.. autosummary::
:toctree: generated/
RegressionResults
OLSResults
.. currentmodule:: statsmodels.regression.quantile_regression
.. autosummary::
:toctree: generated/
QuantRegResults