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I have performed a logistic regression with the following result:

> ssi.logit.single.age["coefficients"]
$coefficients
 (Intercept)          age 
-3.425062382  0.009916508 

I need to pick up the coefficient for age, and currently I use the following code:

ssi.logit.single.age["coefficients"][[1]][2]

It works, but I don't like the cryptic code here, can I use the name of the coefficient (i.e. (Intercept) or age)

Thanks.

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2 Answers 2

up vote 9 down vote accepted

There is an extraction function called coef to get coefficients from models:

coef(ssi.logit.single.age)["age"]
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then how about extracting the stand error? I need to calculate the 95% CI –  lokheart Jan 25 '11 at 3:18
1  
see coef(summary(ssi.logit.single.age)) for a table including standard errors. You can use confint.default(ssi.logit.single.age) to get confidence intervals based on +/- 1.96 SE. Or better, MASS::confint(ssi.logit.single.age) will give you profile confidence intervals, which are more accurate (although a tiny bit slower). –  Ben Bolker Jan 25 '11 at 4:01
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I've found it, from here

Look at the data structure produced by summary()

> names(summary(lm.D9))
  [1] "call"          "terms"         "residuals"     "coefficients"
  [5] "aliased"       "sigma"         "df"            "r.squared"
  [9] "adj.r.squared" "fstatistic"    "cov.unscaled"

Now look at the data structure for the coefficients in the summary:

> summary(lm.D9)$coefficients
             Estimate Std. Error   t value     Pr(>|t|)
(Intercept)    5.032  0.2202177 22.850117 9.547128e-15
groupTrt      -0.371  0.3114349 -1.191260 2.490232e-01

> class(summary(lm.D9)$coefficients)
[1] "matrix"

> summary(lm.D9)$coefficients[,3]
(Intercept)    groupTrt
   22.850117   -1.191260
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Also displaying the internal structure of an R object can be useful via str() function, e.g.: str(summary(lm.D9)) in your example –  daroczig Jan 24 '11 at 9:30
2  
Don't start delving around in objects like this! Use the extractor functions; in this case coef(). For example, look at the $residuals component. You can get model residuals by directly accessing $residuals but what are these? They certainly aren't what you might immediately think of as model residuals. Use resid() on the model and you can choose the type of residual. –  Gavin Simpson Jan 24 '11 at 12:01
1  
?? > all.equal( residuals(lm.D9) , lm.D9$residuals) [1] TRUE (The glm residuals are the "working" residuals.) –  BondedDust Jan 24 '11 at 14:07
    
@DWin @lokheart actually has a GLM and it was that to which I referred, even though the answer refers to a LM from the R-Help posting linked to. There (his GLM), mod$residuals is not the same as resid(mod), and the former is unlikely to be something one would need routinely. The advice in the R-help posting and repeated in @lokheart's answer is not helpful nor recommended. –  Gavin Simpson Jan 24 '11 at 14:50
    
OK. Agreed, and not accurate either. Simpson's advice is especially important because the third column of the coefficients list is the p-value rather than any of the coefficients. The glm default for residuals() is not "working" which is what is stored in the model fit. –  BondedDust Jan 24 '11 at 19:00
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