Generalized Estimating Equations¶
Generalized Estimating Equations estimate generalized linear models for panel, cluster or repeated measures data when the observations are possibly correlated withing a cluster but uncorrelated across clusters. It supports estimation of the same one-parameter exponential families as Generalized Linear models (GLM).
See Module Reference for commands and arguments.
Examples¶
The following illustrates a Poisson regression with exchangeable correlation within clusters using data on epilepsy seizures.
In [1]: import statsmodels.api as sm
In [2]: import statsmodels.formula.api as smf
In [3]: data = sm.datasets.get_rdataset('epil', package='MASS').data
In [4]: fam = sm.families.Poisson()
In [5]: ind = sm.cov_struct.Exchangeable()
In [6]: mod = smf.gee("y ~ age + trt + base", "subject", data,
...: cov_struct=ind, family=fam)
...:
In [7]: res = mod.fit()
In [8]: print(res.summary())
GEE Regression Results
===================================================================================
Dep. Variable: y No. Observations: 236
Model: GEE No. clusters: 59
Method: Generalized Min. cluster size: 4
Estimating Equations Max. cluster size: 4
Family: Poisson Mean cluster size: 4.0
Dependence structure: Exchangeable Num. iterations: 2
Date: Fri, 21 Feb 2020 Scale: 1.000
Covariance type: robust Time: 13:59:59
====================================================================================
coef std err z P>|z| [0.025 0.975]
------------------------------------------------------------------------------------
Intercept 0.5730 0.361 1.589 0.112 -0.134 1.280
trt[T.progabide] -0.1519 0.171 -0.888 0.375 -0.487 0.183
age 0.0223 0.011 1.960 0.050 2.11e-06 0.045
base 0.0226 0.001 18.451 0.000 0.020 0.025
==============================================================================
Skew: 3.7823 Kurtosis: 28.6672
Centered skew: 2.7597 Centered kurtosis: 21.9865
==============================================================================
Several notebook examples of the use of GEE can be found on the Wiki: Wiki notebooks for GEE
References¶
KY Liang and S Zeger. “Longitudinal data analysis using generalized linear models”. Biometrika (1986) 73 (1): 13-22.
S Zeger and KY Liang. “Longitudinal Data Analysis for Discrete and Continuous Outcomes”. Biometrics Vol. 42, No. 1 (Mar., 1986), pp. 121-130
A Rotnitzky and NP Jewell (1990). “Hypothesis testing of regression parameters in semiparametric generalized linear models for cluster correlated data”, Biometrika, 77, 485-497.
Xu Guo and Wei Pan (2002). “Small sample performance of the score test in GEE”. http://www.sph.umn.edu/faculty1/wp-content/uploads/2012/11/rr2002-013.pdf
LA Mancl LA, TA DeRouen (2001). A covariance estimator for GEE with improved small-sample properties. Biometrics. 2001 Mar;57(1):126-34.
Module Reference¶
Model Class¶
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Marginal Regression Model using Generalized Estimating Equations. |
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Nominal Response Marginal Regression Model using GEE. |
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Ordinal Response Marginal Regression Model using GEE |
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Fit a regression model using quadratic inference functions (QIF). |
Results Classes¶
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This class summarizes the fit of a marginal regression model using GEE. |
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Estimated marginal effects for a regression model fit with GEE. |
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Results class for QIF Regression |
Dependence Structures¶
The dependence structures currently implemented are
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Base class for correlation and covariance structures. |
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A first-order autoregressive working dependence structure. |
An exchangeable working dependence structure. |
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Estimate the global odds ratio for a GEE with ordinal or nominal data. |
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An independence working dependence structure. |
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A nested working dependence structure. |
Families¶
The distribution families are the same as for GLM, currently implemented are
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The parent class for one-parameter exponential families. |
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Binomial exponential family distribution. |
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Gamma exponential family distribution. |
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Gaussian exponential family distribution. |
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InverseGaussian exponential family. |
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Negative Binomial exponential family. |
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Poisson exponential family. |
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Tweedie family. |
Link Functions¶
The link functions are the same as for GLM, currently implemented are the following. Not all link functions are available for each distribution family. The list of available link functions can be obtained by
>>> sm.families.family.<familyname>.links
A generic link function for one-parameter exponential family. |
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The use the CDF of a scipy.stats distribution |
The complementary log-log transform |
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The log transform |
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The logit transform |
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The negative binomial link function |
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The power transform |
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The Cauchy (standard Cauchy CDF) transform |
The CLogLog transform link function. |
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The identity transform |
The inverse transform |
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The inverse squared transform |
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The log transform |
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Methods |
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The negative binomial link function. |
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The probit (standard normal CDF) transform |