16

Is there an existing function to estimate fixed effect (one-way or two-way) from Pandas or Statsmodels.

There used to be a function in Statsmodels but it seems discontinued. And in Pandas, there is something called plm, but I can't import it or run it using pd.plm().

  • Please keep it to one question per question. Also, please explain what you mean by "i can't". Please include full tracebacks (if they exist) and a sample that is small and runnable on its own and that reproduces the problem. – Veedrac Jun 12 '14 at 23:34
  • Also don't avoid telling us relevant information. "there used to be a function" implies you know what that function is, so why you avoid telling us confuses me. – Veedrac Jun 12 '14 at 23:36
  • 1
    Since fixed effects is fully equivalent to OLS with properly demeaned target variables, why don't you just do the demeaning first and then run OLS, like this set of examples? I hope this is for some assignment or something though, because as a Bayesian it makes sad since every time someone uses fixed effects an angel loses its wings. – ely Jun 12 '14 at 23:41
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    @user3576212 That is unfortunate. It is very common in certain segments of social science, especially psychology and economics, that students are told to use techniques like fixed effects, but they never learn the real theory behind it. These methods are deeply flawed when used in real world settings and should never be used blindly as part of a software package, at least not until you have mastered the real theory behind it. You may find more help asking over at Cross-Validated. – ely Jun 13 '14 at 0:22
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    You're free to use whatever tools you want. I'm just saying that working in finance doing quant research has made me appreciate the criticisms of these methods more. They are not good for solving precisely the problems they are claimed to solve (such as cross-sectional correlation). It's similar with other very bad methods, like Fama-Macbeth regression. I'm not talking about anything academic, just applied econ research. – ely Jun 13 '14 at 1:57
16

As noted in the comments, PanelOLS has been removed from Pandas as of version 0.20.0. So you really have three options:

  1. If you use Python 3 you can use linearmodels as specified in the more recent answer: https://stackoverflow.com/a/44836199/3435183

  2. Just specify various dummies in your statsmodels specification, e.g. using pd.get_dummies. May not be feasible if the number of fixed effects is large.

  3. Or do some groupby based demeaning and then use statsmodels (this would work if you're estimating lots of fixed effects). Here is a barebones version of what you could do for one way fixed effects:

    def areg(formula,data=None,absorb=None,cluster=None): 
    
        y,X = patsy.dmatrices(formula,data,return_type='dataframe')
    
        ybar = y.mean()
        y = y -  y.groupby(data[absorb]).transform('mean') + ybar
    
        Xbar = X.mean()
        X = X - X.groupby(data[absorb]).transform('mean') + Xbar
    
        reg = sm.OLS(y,X)
        # Account for df loss from FE transform
        reg.df_resid -= (data[absorb].nunique() - 1)
    
        return reg.fit(cov_type='cluster',cov_kwds={'groups':data[cluster].values})
    

And here is what you can do if using an older version of Pandas:

An example with time fixed effects using pandas' PanelOLS (which is in the plm module). Notice, the import of PanelOLS:

>>> from pandas.stats.plm import PanelOLS
>>> df

                y    x
date       id
2012-01-01 1   0.1  0.2
           2   0.3  0.5
           3   0.4  0.8
           4   0.0  0.2
2012-02-01 1   0.2  0.7 
           2   0.4  0.5
           3   0.2  0.3
           4   0.1  0.1
2012-03-01 1   0.6  0.9
           2   0.7  0.5
           3   0.9  0.6
           4   0.4  0.5

Note, the dataframe must have a multindex set ; panelOLS determines the time and entity effects based on the index:

>>> reg  = PanelOLS(y=df['y'],x=df[['x']],time_effects=True)
>>> reg

-------------------------Summary of Regression Analysis-------------------------

Formula: Y ~ <x>

Number of Observations:         12
Number of Degrees of Freedom:   4

R-squared:         0.2729
Adj R-squared:     0.0002

Rmse:              0.1588

F-stat (1, 8):     1.0007, p-value:     0.3464

Degrees of Freedom: model 3, resid 8

-----------------------Summary of Estimated Coefficients------------------------
      Variable       Coef    Std Err     t-stat    p-value    CI 2.5%   CI 97.5%
--------------------------------------------------------------------------------
             x     0.3694     0.2132       1.73     0.1214    -0.0485     0.7872
---------------------------------End of Summary--------------------------------- 

Docstring:

PanelOLS(self, y, x, weights = None, intercept = True, nw_lags = None,
entity_effects = False, time_effects = False, x_effects = None,
cluster = None, dropped_dummies = None, verbose = False,
nw_overlap = False)

Implements panel OLS.

See ols function docs

This is another function (like fama_macbeth) where I believe the plan is to move this functionality to statsmodels.

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  • If you use the time index or group index id as a categorical variable in a formula for statsmodels ols, then it creates the fixed effects dummies for you. However, removing the fixed effects by demeaning is not yet supported. – Josef Jun 13 '14 at 1:44
  • @Karl D. Thanks a lot, your answers are always very useful! – user3576212 Jun 13 '14 at 4:02
  • Can I use random effects with pandas? I'm looking for something similar to stata's xtreg, re. Thanks! – petobens May 3 '15 at 23:04
  • Statsmodels will do random effects. – Karl D. May 4 '15 at 21:35
  • what is the difference between time_effects and entity_effects? – Moj Oct 27 '15 at 14:24
14

There is a package called linearmodels (https://pypi.org/project/linearmodels/) that has a fairly complete fixed effects and random effects implementation including clustered standard errors. It does not use high-dimensional OLS to eliminate effects and so can be used with large data sets.

# Outer is entity, inner is time
entity = list(map(chr,range(65,91)))
time = list(pd.date_range('1-1-2014',freq='A', periods=4))
index = pd.MultiIndex.from_product([entity, time])
df = pd.DataFrame(np.random.randn(26*4, 2),index=index, columns=['y','x'])

from linearmodels.panel import PanelOLS
mod = PanelOLS(df.y, df.x, entity_effects=True)
res = mod.fit(cov_type='clustered', cluster_entity=True)
print(res)

This produces the following output:

                          PanelOLS Estimation Summary                           
================================================================================
Dep. Variable:                      y   R-squared:                        0.0029
Estimator:                   PanelOLS   R-squared (Between):             -0.0109
No. Observations:                 104   R-squared (Within):               0.0029
Date:                Thu, Jun 29 2017   R-squared (Overall):             -0.0007
Time:                        23:52:28   Log-likelihood                   -125.69
Cov. Estimator:             Clustered                                           
                                        F-statistic:                      0.2256
Entities:                          26   P-value                           0.6362
Avg Obs:                       4.0000   Distribution:                    F(1,77)
Min Obs:                       4.0000                                           
Max Obs:                       4.0000   F-statistic (robust):             0.1784
                                        P-value                           0.6739
Time periods:                       4   Distribution:                    F(1,77)
Avg Obs:                       26.000                                           
Min Obs:                       26.000                                           
Max Obs:                       26.000                                           

                             Parameter Estimates                              
==============================================================================
            Parameter  Std. Err.     T-stat    P-value    Lower CI    Upper CI
------------------------------------------------------------------------------
x              0.0573     0.1356     0.4224     0.6739     -0.2127      0.3273
==============================================================================

F-test for Poolability: 1.0903
P-value: 0.3739
Distribution: F(25,77)

Included effects: Entity

It also has a formula interface which is similar to statsmodels,

mod = PanelOLS.from_formula('y ~ x + EntityEffects', df)
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  • 2
    Correct answer should be changed to this, because PanelOLS has been droped from pandas in 0.20 and I also cannot find it in statsmodels. bashtage.github.io/linearmodels/doc/panel/pandas.html – user3820991 Sep 24 '17 at 16:51
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    Buyer beware: linearmodels requires Python 3. – istewart Oct 7 '17 at 23:51
  • Also, it does not make out of sample predictions. You have to code that yourself. – Carlo DM Aug 27 '18 at 9:29

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