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In R, how can I calculate robust standard errors using vcovHC() when some coefficients are dropped due to singularities? The standard lm function seems to do fine calculating normal standard errors for all coefficients that are actually estimated, but vcovHC() throws an error: "Error in bread. %*% meat. : non-conformable arguments".

(The actual data I'm using is a bit more complicated. In fact, it is a model using two different fixed effects and I run into local singularities which I cannot simply get rid of. At least I would not know how. For the two fixed effects I'm using the first factor has 150 levels, the second has 142 levels and there are in total 9 singularities which result from the fact that the data was collected in ten blocks.)

Here is my output:

Call:
lm(formula = one ~ two + three + Jan + Feb + Mar + Apr + May + 
Jun + Jul + Aug + Sep + Oct + Nov + Dec, data = dat)

Residuals:
    Min      1Q  Median      3Q     Max 
-130.12  -60.95    0.08   61.05  137.35 

Coefficients: (1 not defined because of singularities)
              Estimate Std. Error t value Pr(>|t|)    
(Intercept) 1169.74313   57.36807  20.390   <2e-16 ***
two           -0.07963    0.06720  -1.185    0.237    
three         -0.04053    0.06686  -0.606    0.545    
Jan            8.10336   22.05552   0.367    0.714    
Feb            0.44025   22.11275   0.020    0.984    
Mar           19.65066   22.02454   0.892    0.373    
Apr          -13.19779   22.02886  -0.599    0.550    
May           15.39534   22.10445   0.696    0.487    
Jun          -12.50227   22.07013  -0.566    0.572    
Jul          -20.58648   22.06772  -0.933    0.352    
Aug           -0.72223   22.36923  -0.032    0.974    
Sep           12.42204   22.09296   0.562    0.574    
Oct           25.14836   22.04324   1.141    0.255    
Nov           18.13337   22.08717   0.821    0.413    
Dec                 NA         NA      NA       NA    
---
Signif. codes:  0 ‘***’ 0.001 ‘**’ 0.01 ‘*’ 0.05 ‘.’ 0.1 ‘ ’ 1 

Residual standard error: 69.63 on 226 degrees of freedom
Multiple R-squared: 0.04878,    Adjusted R-squared: -0.005939 
F-statistic: 0.8914 on 13 and 226 DF,  p-value: 0.5629 

> model$se <- vcovHC(model)
Error in bread. %*% meat. : non-conformable arguments

Here is a minimal code snipped to reproduce the error.

library(sandwich)
set.seed(101)
dat<-data.frame(one=c(sample(1000:1239)),
              two=c(sample(200:439)),
              three=c(sample(600:839)),
              Jan=c(rep(1,20),rep(0,220)),
              Feb=c(rep(0,20),rep(1,20),rep(0,200)),
              Mar=c(rep(0,40),rep(1,20),rep(0,180)),
              Apr=c(rep(0,60),rep(1,20),rep(0,160)),
              May=c(rep(0,80),rep(1,20),rep(0,140)),
              Jun=c(rep(0,100),rep(1,20),rep(0,120)),
              Jul=c(rep(0,120),rep(1,20),rep(0,100)),
              Aug=c(rep(0,140),rep(1,20),rep(0,80)),
              Sep=c(rep(0,160),rep(1,20),rep(0,60)),
              Oct=c(rep(0,180),rep(1,20),rep(0,40)),
              Nov=c(rep(0,200),rep(1,20),rep(0,20)),
              Dec=c(rep(0,220),rep(1,20))) 
model <- lm(one ~ two + three + Jan + Feb + Mar + Apr + May + Jun + Jul + Aug + Sep + Oct + Nov + Dec, data=dat)
summary(model)
model$se <- vcovHC(model)
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Your code seems to work. You may want to explicitely remove one of the months (or the intercept) from the model, to avoid the singularity. –  Vincent Zoonekynd Feb 18 '12 at 1:59
    
That's unfortunately my point: I cannot remove the singularity. This is just a simple example data set that I posted. In that dataset, I agree: you could simply remove Dec from the regression, thus get rid of the singularity and then vcovHC() would work. In my actual data it is a bit more complicated where the singularity stems from two fixed effects with many levels (150 and 142 respectively). I haven't found a way of getting rid of the singularities in that data. –  Chris Feb 18 '12 at 3:56
3  
@Chris: Do you still get this error? After changing Dec to c(rep(0,240)) to induce a singularity, a call to vcovHC(model) succeeds without the error you note. In the changelog for sandwich 2.2-9: lm/mlm/glm models with aliased parameters were not handled correctly (leading to errors in sandwich/vcovHC etc.), fixed now. Perhaps that fixed it? –  jthetzel May 24 '12 at 11:55
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1 Answer 1

Models with singularities are never good and they should be fixed. In your case, you have 12 coefficients for 12 month, but also the global intercept! So you have actually 13 coefficients for only 12 real parameters to be estimated. What you actually want is to disable the global intercept - so you will have something more like month-specific intercept:

> model <- lm(one ~ 0 + two + three + Jan + Feb + Mar + Apr + May + Jun + Jul + Aug + Sep + Oct + Nov + Dec, data=dat)
> summary(model)

Call:
lm(formula = one ~ 0 + two + three + Jan + Feb + Mar + Apr + 
    May + Jun + Jul + Aug + Sep + Oct + Nov + Dec, data = dat)

Residuals:
     Min       1Q   Median       3Q      Max 
-133.817  -55.636    3.329   56.768  126.772 

Coefficients:
        Estimate Std. Error t value Pr(>|t|)    
two     -0.09670    0.06621  -1.460    0.146    
three    0.02446    0.06666   0.367    0.714    
Jan   1130.05812   52.79625  21.404   <2e-16 ***
Feb   1121.32904   55.18864  20.318   <2e-16 ***
Mar   1143.50310   53.59603  21.336   <2e-16 ***
Apr   1143.95365   54.99724  20.800   <2e-16 ***
May   1136.36429   53.38218  21.287   <2e-16 ***
Jun   1129.86010   53.85865  20.978   <2e-16 ***
Jul   1105.10045   54.94940  20.111   <2e-16 ***
Aug   1147.47152   54.57201  21.027   <2e-16 ***
Sep   1139.42205   53.58611  21.263   <2e-16 ***
Oct   1117.75075   55.35703  20.192   <2e-16 ***
Nov   1129.20208   53.54934  21.087   <2e-16 ***
Dec   1149.55556   53.52499  21.477   <2e-16 ***
---
Signif. codes:  0 ‘***’ 0.001 ‘**’ 0.01 ‘*’ 0.05 ‘.’ 0.1 ‘ ’ 1

Residual standard error: 69.81 on 226 degrees of freedom
Multiple R-squared:  0.9964,    Adjusted R-squared:  0.9961 
F-statistic:  4409 on 14 and 226 DF,  p-value: < 2.2e-16

Then, it is a normal model so you shouldn't have any problems with vcovHC.

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