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I want to do a regression of y~x (just 1 dependent and 1 independent variable) but I have heteroskedasticity. The variability of y increases as x increases. To deal with it, I would like to use weighted least squares through the "gls()" function in R. But I have to admit that I don't understand how to use it. I have to apply a variance function to the "weights" argument of the gls function. But I don't which one to choose and how to use it. Could you give me some help on that please?


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Here's an example of taking care of poisson count like data where the variation will be proportional to the mean (which it sounds like you have).

fit = lm (y ~ x, data=dat,weights=(1/dat$x^2))

You use the recipricol as the weight since you will be multiplying the values. You square it for taking care of Poisson count data because the variance has units squared. You can do something like:

fit = lm (y ~ x, data=dat,weights=(1/dat$x))

To simply scale it by the x value and see what works better.

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How can I assess if it works better. The value returned by the Bartlett test is the same with and without the "weights" argument. Here is my code: a2=read.table("total37.txt",header=TRUE) m1=lm(Res~ModeF, a2, weights=1/a2$ModeF^2) m2=lm(Res~ModeF, a2) bartlett.test(residuals(m1)~a2$ModeF)) Bartlett test data: residuals(m1) and a2$ModeF Bartlett's K-squared = 35.2706, df = 11, p-value = 0.0002236 bartlett.test(residuals(m2)~a2$ModeF)) Bartlett test data: residuals(m2) and a2$ModeF Bartlett's K-squared = 35.2706, df = 11, p-value = 0.0002236 – user1671537 Jul 2 '13 at 8:08

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