Marc Girondot
2018-Feb-16 01:27 UTC
[R] SE for all levels (including reference) of a factor atfer a GLM
Dear R-er, I try to get the standard error of fitted parameters for factors with a glm, even the reference one: a <- runif(100) b <- sample(x=c("0", "1", "2"), size=100, replace = TRUE) df <- data.frame(A=a, B=b, stringsAsFactors = FALSE) g <- glm(a ~ b, data=df) summary(g)$coefficients # I don't get SE for the reference factor, here 0: ????????????? Estimate Std. Error??? t value???? Pr(>|t|) (Intercept)? 0.50384827 0.05616631? 8.9706490 2.236684e-14 b1????????? -0.03598386 0.07496151 -0.4800311 6.322860e-01 b2?????????? 0.03208039 0.07063113? 0.4541962 6.507023e-01 # Then I try to change the order of factors, for example: df$B[df$B=="0"] <- "3" g <- glm(a ~ b, data=df) summary(g)$coefficients By I get the same... Any idea ? Thanks Marc
Bert Gunter
2018-Feb-16 02:28 UTC
[R] SE for all levels (including reference) of a factor atfer a GLM
This is really a statistical issue. What do you think the Intercept term represents? See ?contrasts. Cheers, Bert Bert Gunter "The trouble with having an open mind is that people keep coming along and sticking things into it." -- Opus (aka Berkeley Breathed in his "Bloom County" comic strip ) On Thu, Feb 15, 2018 at 5:27 PM, Marc Girondot via R-help < r-help at r-project.org> wrote:> Dear R-er, > > I try to get the standard error of fitted parameters for factors with a > glm, even the reference one: > > a <- runif(100) > b <- sample(x=c("0", "1", "2"), size=100, replace = TRUE) > df <- data.frame(A=a, B=b, stringsAsFactors = FALSE) > > g <- glm(a ~ b, data=df) > summary(g)$coefficients > > # I don't get SE for the reference factor, here 0: > > Estimate Std. Error t value Pr(>|t|) > (Intercept) 0.50384827 0.05616631 8.9706490 2.236684e-14 > b1 -0.03598386 0.07496151 -0.4800311 6.322860e-01 > b2 0.03208039 0.07063113 0.4541962 6.507023e-01 > > # Then I try to change the order of factors, for example: > > df$B[df$B=="0"] <- "3" > g <- glm(a ~ b, data=df) > summary(g)$coefficients > > By I get the same... > > Any idea ? > > Thanks > > Marc > > ______________________________________________ > R-help at r-project.org mailing list -- To UNSUBSCRIBE and more, see > https://stat.ethz.ch/mailman/listinfo/r-help > PLEASE do read the posting guide http://www.R-project.org/posti > ng-guide.html > and provide commented, minimal, self-contained, reproducible code. >[[alternative HTML version deleted]]
Rolf Turner
2018-Feb-16 04:02 UTC
[R] [FORGED] Re: SE for all levels (including reference) of a factor atfer a GLM
On 16/02/18 15:28, Bert Gunter wrote:> This is really a statistical issue. What do you think the Intercept term > represents? See ?contrasts. > > Cheers, > Bert > > > > Bert Gunter > > "The trouble with having an open mind is that people keep coming along and > sticking things into it." > -- Opus (aka Berkeley Breathed in his "Bloom County" comic strip )It's a *little* bit R-ish in that the results depend on the parametrisation of the model which by default in R is formed using the so-called "treatment" contrasts. To wander from R into statistics (sorry Bert) the problem arises because the "usual" parametrisation of the model is the "over-parametrised" form: Y_ij = mu + beta_i + E_ij (i = 1, ..., I, j = 1, ..., J_i) where Y_ij is the j-th observation corresponding to the i-th "treatment" or group. (Things get a bit more complicated in "multi-way" models; let's not go there.) The parameter "mu" is the "grand mean" and the "beta_i" are the "treatment" effects. The trouble with this parametrisation is that the parameters are meaningless! (The usual jargon is to say that they are "not estimable", but "meaningless" is a more accurate description.) In order to ascribe unique values to the parameters, one must apply a "constraint". With the "treatment contrasts" the constraint is that beta_1 = 0. As a result the mean for the first treatment is mu, that for the second treatment is mu + beta_2, and so on. Consequently the SE corresponding to "(Intercept)" is the SE of estimated mean for treatment 1. The SE corresponding to beta_2 is the SE of the estimated *difference* between the mean for treatment 2 and that for treatment 1, and so on. Frequently the constraint beta_1 + ...+ beta_I = 0 is used. This sort of treats all of the beta_i equally. At this point it gets R-ish again. You can impose the foregoing constraint by using either "sum" or "Helmert" contrasts. You can get the "more natural", "fully" (rather than "over") parametrised model via the syntax: g <- glm(a ~ 0 + b, data=df) or g <- glm(a ~ b - 1, data=df) This syntax actually imposes the constraint that mu = 0. (Here "contrasts" don't get involved --- a bit counterintuitive, that.) The foregoing expressions will give you estimates labelled "b0", "b1", "b2" (nothing labelled "(Intercept)") and these estimate are of the treatment means and the SEs are straightforward to interpret. There *is* a rationale for the use of the over-parametrised model, but I won't try to explain it here. I've raved on long enough. Marc: I hope this helps. cheers, Rolf P.S. It is bad form to call a data frame "df" since this is the name of the density function for the family of F-distributions. There are circumstances in which such usage can lead to error messages which are impossible to interpret, e.g. "object of type 'closure' is not subsettable". (!!!) R.> > On Thu, Feb 15, 2018 at 5:27 PM, Marc Girondot via R-help < > r-help at r-project.org> wrote: > >> Dear R-er, >> >> I try to get the standard error of fitted parameters for factors with a >> glm, even the reference one: >> >> a <- runif(100) >> b <- sample(x=c("0", "1", "2"), size=100, replace = TRUE) >> df <- data.frame(A=a, B=b, stringsAsFactors = FALSE) >> >> g <- glm(a ~ b, data=df) >> summary(g)$coefficients >> >> # I don't get SE for the reference factor, here 0: >> >> Estimate Std. Error t value Pr(>|t|) >> (Intercept) 0.50384827 0.05616631 8.9706490 2.236684e-14 >> b1 -0.03598386 0.07496151 -0.4800311 6.322860e-01 >> b2 0.03208039 0.07063113 0.4541962 6.507023e-01 >> >> # Then I try to change the order of factors, for example: >> >> df$B[df$B=="0"] <- "3" >> g <- glm(a ~ b, data=df) >> summary(g)$coefficients >> >> By I get the same... >> >> Any idea ? >> >> Thanks >> >> Marc
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