Generalized Linear Models
GLM: Binomial response data
Load data
In this example, we use the Star98 dataset which was taken with permission from Jeff Gill (2000) Generalized linear models: A unified approach. Codebook information can be obtained by typing:
::
Number of Observations - 303 (counties in California).
Number of Variables - 13 and 8 interaction terms.
Definition of variables names::
NABOVE - Total number of students above the national median for the
math section.
NBELOW - Total number of students below the national median for the
math section.
LOWINC - Percentage of low income students
PERASIAN - Percentage of Asian student
PERBLACK - Percentage of black students
PERHISP - Percentage of Hispanic students
PERMINTE - Percentage of minority teachers
AVYRSEXP - Sum of teachers' years in educational service divided by the
number of teachers.
AVSALK - Total salary budget including benefits divided by the number
of full-time teachers (in thousands)
PERSPENK - Per-pupil spending (in thousands)
PTRATIO - Pupil-teacher ratio.
PCTAF - Percentage of students taking UC/CSU prep courses
PCTCHRT - Percentage of charter schools
PCTYRRND - Percentage of year-round schools
The below variables are interaction terms of the variables defined
above.
PERMINTE_AVYRSEXP
PEMINTE_AVSAL
AVYRSEXP_AVSAL
PERSPEN_PTRATIO
PERSPEN_PCTAF
PTRATIO_PCTAF
PERMINTE_AVTRSEXP_AVSAL
PERSPEN_PTRATIO_PCTAF
Load the data and add a constant to the exogenous (independent) variables:
The dependent variable is N by 2 (Success: NABOVE, Failure: NBELOW):
[[452. 355.]
[144. 40.]
[337. 234.]
[395. 178.]
[ 8. 57.]]
The independent variables include all the other variables described above, as well as the interaction terms:
[[3.43973000e+01 2.32993000e+01 1.42352800e+01 1.14111200e+01
1.59183700e+01 1.47064600e+01 5.91573200e+01 4.44520700e+00
2.17102500e+01 5.70327600e+01 0.00000000e+00 2.22222200e+01
2.34102872e+02 9.41688110e+02 8.69994800e+02 9.65065600e+01
2.53522420e+02 1.23819550e+03 1.38488985e+04 5.50403520e+03
1.00000000e+00]
[1.73650700e+01 2.93283800e+01 8.23489700e+00 9.31488400e+00
1.36363600e+01 1.60832400e+01 5.95039700e+01 5.26759800e+00
2.04427800e+01 6.46226400e+01 0.00000000e+00 0.00000000e+00
2.19316851e+02 8.11417560e+02 9.57016600e+02 1.07684350e+02
3.40406090e+02 1.32106640e+03 1.30502233e+04 6.95884680e+03
1.00000000e+00]]
Fit and summary
Generalized Linear Model Regression Results
==============================================================================
Dep. Variable: ['y1', 'y2'] No. Observations: 303
Model: GLM Df Residuals: 282
Model Family: Binomial Df Model: 20
Link Function: logit Scale: 1.0000
Method: IRLS Log-Likelihood: -2998.6
Date: Mon, 14 May 2018 Deviance: 4078.8
Time: 21:45:26 Pearson chi2: 4.05e+03
No. Iterations: 5 Covariance Type: nonrobust
==============================================================================
coef std err z P>|z| [0.025 0.975]
------------------------------------------------------------------------------
x1 -0.0168 0.000 -38.749 0.000 -0.018 -0.016
x2 0.0099 0.001 16.505 0.000 0.009 0.011
x3 -0.0187 0.001 -25.182 0.000 -0.020 -0.017
x4 -0.0142 0.000 -32.818 0.000 -0.015 -0.013
x5 0.2545 0.030 8.498 0.000 0.196 0.313
x6 0.2407 0.057 4.212 0.000 0.129 0.353
x7 0.0804 0.014 5.775 0.000 0.053 0.108
x8 -1.9522 0.317 -6.162 0.000 -2.573 -1.331
x9 -0.3341 0.061 -5.453 0.000 -0.454 -0.214
x10 -0.1690 0.033 -5.169 0.000 -0.233 -0.105
x11 0.0049 0.001 3.921 0.000 0.002 0.007
x12 -0.0036 0.000 -15.878 0.000 -0.004 -0.003
x13 -0.0141 0.002 -7.391 0.000 -0.018 -0.010
x14 -0.0040 0.000 -8.450 0.000 -0.005 -0.003
x15 -0.0039 0.001 -4.059 0.000 -0.006 -0.002
x16 0.0917 0.015 6.321 0.000 0.063 0.120
x17 0.0490 0.007 6.574 0.000 0.034 0.064
x18 0.0080 0.001 5.362 0.000 0.005 0.011
x19 0.0002 2.99e-05 7.428 0.000 0.000 0.000
x20 -0.0022 0.000 -6.445 0.000 -0.003 -0.002
const 2.9589 1.547 1.913 0.056 -0.073 5.990
==============================================================================
Quantities of interest
Total number of trials: 807.0
Parameters: [-1.68150366e-02 9.92547661e-03 -1.87242148e-02 -1.42385609e-02
2.54487173e-01 2.40693664e-01 8.04086739e-02 -1.95216050e+00
-3.34086475e-01 -1.69022168e-01 4.91670212e-03 -3.57996435e-03
-1.40765648e-02 -4.00499176e-03 -3.90639579e-03 9.17143006e-02
4.89898381e-02 8.04073890e-03 2.22009503e-04 -2.24924861e-03
2.95887793e+00]
T-values: [-38.74908321 16.50473627 -25.1821894 -32.81791308 8.49827113
4.21247925 5.7749976 -6.16191078 -5.45321673 -5.16865445
3.92119964 -15.87825999 -7.39093058 -8.44963886 -4.05916246
6.3210987 6.57434662 5.36229044 7.42806363 -6.44513698
1.91301155]
First differences: We hold all explanatory variables constant at their means and manipulate the percentage of low income households to assess its impact on the response variables:
The interquartile first difference for the percentage of low income households in a school district is:
Plots
We extract information that will be used to draw some interesting plots:
Plot yhat vs y:
Plot yhat vs. Pearson residuals:
Out[13]:
Text(0.5,0,'Fitted values')
Histogram of standardized deviance residuals:
QQ Plot of Deviance Residuals:
GLM: Gamma for proportional count response
Load data
In the example above, we printed the NOTE
attribute to learn about the Star98 dataset. Statsmodels datasets ships with other useful information. For example:
This data is based on the example in Gill and describes the proportion of
voters who voted Yes to grant the Scottish Parliament taxation powers.
The data are divided into 32 council districts. This example's explanatory
variables include the amount of council tax collected in pounds sterling as
of April 1997 per two adults before adjustments, the female percentage of
total claims for unemployment benefits as of January, 1998, the standardized
mortality rate (UK is 100), the percentage of labor force participation,
regional GDP, the percentage of children aged 5 to 15, and an interaction term
between female unemployment and the council tax.
The original source files and variable information are included in
/scotland/src/
Load the data and add a constant to the exogenous variables:
[[7.12000e+02 2.10000e+01 1.05000e+02 8.24000e+01 1.35660e+04 1.23000e+01
1.49520e+04 1.00000e+00]
[6.43000e+02 2.65000e+01 9.70000e+01 8.02000e+01 1.35660e+04 1.53000e+01
1.70395e+04 1.00000e+00]
[6.79000e+02 2.83000e+01 1.13000e+02 8.63000e+01 9.61100e+03 1.39000e+01
1.92157e+04 1.00000e+00]
[8.01000e+02 2.71000e+01 1.09000e+02 8.04000e+01 9.48300e+03 1.36000e+01
2.17071e+04 1.00000e+00]
[7.53000e+02 2.20000e+01 1.15000e+02 6.47000e+01 9.26500e+03 1.46000e+01
1.65660e+04 1.00000e+00]]
[60.3 52.3 53.4 57. 68.7]
Fit and summary
Generalized Linear Model Regression Results
==============================================================================
Dep. Variable: y No. Observations: 32
Model: GLM Df Residuals: 24
Model Family: Gamma Df Model: 7
Link Function: inverse_power Scale: 0.0035843
Method: IRLS Log-Likelihood: -83.017
Date: Mon, 14 May 2018 Deviance: 0.087389
Time: 21:45:29 Pearson chi2: 0.0860
No. Iterations: 6 Covariance Type: nonrobust
==============================================================================
coef std err z P>|z| [0.025 0.975]
------------------------------------------------------------------------------
x1 4.962e-05 1.62e-05 3.060 0.002 1.78e-05 8.14e-05
x2 0.0020 0.001 3.824 0.000 0.001 0.003
x3 -7.181e-05 2.71e-05 -2.648 0.008 -0.000 -1.87e-05
x4 0.0001 4.06e-05 2.757 0.006 3.23e-05 0.000
x5 -1.468e-07 1.24e-07 -1.187 0.235 -3.89e-07 9.56e-08
x6 -0.0005 0.000 -2.159 0.031 -0.001 -4.78e-05
x7 -2.427e-06 7.46e-07 -3.253 0.001 -3.89e-06 -9.65e-07
const -0.0178 0.011 -1.548 0.122 -0.040 0.005
==============================================================================
/Users/taugspurger/sandbox/statsmodels/statsmodels/genmod/generalized_linear_model.py:302: DomainWarning: The inverse_power link function does not respect the domain of the Gamma family.
DomainWarning)
GLM: Gaussian distribution with a noncanonical link
Artificial data
Fit and summary
Generalized Linear Model Regression Results
==============================================================================
Dep. Variable: y No. Observations: 100
Model: GLM Df Residuals: 97
Model Family: Gaussian Df Model: 2
Link Function: log Scale: 1.0531e-07
Method: IRLS Log-Likelihood: 662.92
Date: Mon, 14 May 2018 Deviance: 1.0215e-05
Time: 21:45:29 Pearson chi2: 1.02e-05
No. Iterations: 7 Covariance Type: nonrobust
==============================================================================
coef std err z P>|z| [0.025 0.975]
------------------------------------------------------------------------------
x1 -0.0300 5.6e-06 -5361.316 0.000 -0.030 -0.030
x2 -9.939e-05 1.05e-07 -951.091 0.000 -9.96e-05 -9.92e-05
const 1.0003 5.39e-05 1.86e+04 0.000 1.000 1.000
==============================================================================