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When I perform a regression in R and use type factor it helps me avoid setting up the categorical variables in the data. But how do I remove a factor that is not significant from the regression to just show significant variables?

For example:

dependent <- c(1:10)
independent1 <- as.factor(c('d','a','a','a','a','a','a','b','b','c'))
independent2 <- c(-0.71,0.30,1.32,0.30,2.78,0.85,-0.25,-1.08,-0.94,1.33)
output <- lm(dependent ~ independent1+independent2)
summary(output)

Which results in the following regression model:

Coefficients:
          Estimate Std. Error t value Pr(>|t|)   
(Intercept)     4.6180     1.0398   4.441  0.00676 **
independent1b   3.7471     2.1477   1.745  0.14148   
independent1c   5.5597     2.0736   2.681  0.04376 * 
independent1d  -3.7129     2.3984  -1.548  0.18230   
independent2   -0.1336     0.7880  -0.170  0.87203   

If I want to pull out the independent1 levels that are insignificant (b,d) is there a way that I can do that?

In this case setting up the data to have categorical variables is easy but when I'm including week numbers or another factor with a lot of levels it becomes inconvenient.

Here is the way to build the model using categorial variables. As you can see it ends up being more of a pain to structure the data but also gives me more control.

regressionData <- data.frame(cbind(1:10,c(-0.71,0.30,1.32,0.30,2.78,0.85,-0.25,-1.08,-0.94,1.33),c(0,1,1,1,1,1,1,0,0,0),c(0,0,0,0,0,0,0,1,1,0),c(0,0,0,0,0,0,0,0,0,1),c(1,0,0,0,0,0,0,0,0,0)))

names(output) = c('dependent','independent2','independenta', 'independentb','independentc','independentd')

attach(regressionData)

result <- lm(dependent~independent2+independentb+independentc+independentd)
summary(result)

Now I can remove independent2 since it's insignificant

result <- lm(dependent~independentb+independentc+independentd)
summary(result)

I'll remove independentd since it's not significant

result <- lm(dependent~independentb+independentc)
summary(result)

But in this case the Adjusted R Squared drops (I'm not even going to do the partial F-test) since it would be significant, but in many cases this is not true and I need to remove the categorical from the regression because it's eating up degrees of freedom which are important in this case and potential masking the value of other variables that are significant.

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4  
As a statistical matter, I think that this is a bad idea. –  Charlie Sep 7 '12 at 22:52
    
@Charile Why do you say that? In the case above I generated independent2 as totally random numbers so that term shouldn't add anything to the accuracy of my model and since its P value is greater than .05 I'll remove it. –  Andrew Elliott Sep 9 '12 at 4:58
    
What about update? –  Roman Luštrik Sep 9 '12 at 6:55
2  
@AndrewElliott, For one thing, it messes with your reference group. So now your intercept are observations in group a, b, or d. These might be odd observations to group together. But, from a testing perspective, testing any series of coefficients, whether part of a factor or not, leads to "multiple testing issues" that give biased testing results. Lastly, when you use a different base group, different levels of the factor will be significant. Let c be the base group in your regression. You'll get groups a, b, and d significant then. –  Charlie Sep 10 '12 at 14:32
1  
please google "stepwise regression bad", or poke around on CrossValidated.com, for explanations why model reduction of this type will not actually help you, even though you think the extra terms are "eating up degrees of freedom which are important in this case and potential masking the value of other variables that are significant" ... –  Ben Bolker Sep 10 '12 at 15:46

3 Answers 3

If you only want to remove the non-significant levels from the output but include them for the estimation you just can use the coeftest function from AER package and then with properly indexig you'll get what you want.

 library(AER)
 coeftest(output)[-c(2,4), ]
                Estimate Std. Error    t value    Pr(>|t|)
(Intercept)    4.6180039  1.0397726  4.4413595 0.006756325
independent1c  5.5596699  2.0736190  2.6811434 0.043760158
independent2  -0.1335893  0.7880382 -0.1695214 0.872031752

If you don't feel like using AER package you can also do the following:

summary(output)$coefficients[-c(2,4),]
                Estimate Std. Error    t value    Pr(>|t|)
(Intercept)    4.6180039  1.0397726  4.4413595 0.006756325
independent1c  5.5596699  2.0736190  2.6811434 0.043760158
independent2  -0.1335893  0.7880382 -0.1695214 0.872031752

I prefer the last one since you don't need to install an additional package.

I don't know if this is what you're looking for.

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Any idea how to remove it from the actual regression? Typically I remove insignificant variables based on partial F-test results. –  Andrew Elliott Sep 9 '12 at 4:47

If you're willing to take just the coefficent table and not the whole summary, you can just do this:

Extract the whole coefficient table:

ss <- coef(summary(output))

Take only the rows you want:

ss_sig <- ss[ss[,"Pr(>|t|)"]<0.05,]

printCoefmat pretty-prints coefficient tables with significance stars etc.

> printCoefmat(ss_sig)
              Estimate Std. Error t value Pr(>|t|)   
(Intercept)     4.6180     1.0398  4.4414 0.006756 **
independent1c   5.5597     2.0736  2.6811 0.043760 * 
---
Signif. codes:  0 ‘***’ 0.001 ‘**’ 0.01 ‘*’ 0.05 ‘.’ 0.1 ‘ ’ 1 

(This answer is similar to @Jilber's except that it automatically finds the non-significant rows for you rather than asking you to specify them manually.)

However, I have to agree with @Charlie's comment above that this is bad statistical practice ... dichotomizes the predictors artificially into significant/non-significant (predictors with p=0.049 and p=0.051 will be treated differently), and especially bad with categorical predictors where the particular set of parameters that are significant will depend on the contrasts/which level is use as the baseline ...

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You can remove the levels of the factor variables using the option exclude:

lm(dependent ~ factor(independent1, exclude=c('b','d')) + independent2)

This way the factors b, d will not be included in the regression.

Cheers

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