# Calculate the linear regression for several files?

I have 3 files (matrix with 200 columns and 6 rows) in one folder

``````mat1 <- matrix(seq(1:1200), ncol = 200)
mat2 <- matrix(seq(1:1200), ncol = 200)
mat3 <- matrix(seq(1:1200), ncol = 200)
``````

I have another 3 files (matrix with 200 columns and 6 rows) in another folder

``````at1 <- matrix(seq(1:1200), ncol = 200)
at2 <- matrix(seq(1:1200), ncol = 200)
at3 <- matrix(seq(1:1200), ncol = 200)
``````

I would like to compute the linear regression equation:

``````mat=a + b * at
``````

we, for instance, take the first pixel in

``````mat1[1,1]........until mat3[1,1]  and regress this with
at1[1,1]........until at3[1,1]
``````

and then write the output (the intercept and b coefficient....)

do the same with:

``````mat1[1,2]........until mat3[1,2]  and regress this with
at1[1,2]........until at3[1,2]
``````

So for each pixel in mat1, I will have intercept and coefficient b finally will get a matrix of intercept and a matrix of b coefficient.

I know that for only one simple matrix we use:

``````model=lm(mat1~at1)
``````

But for temporal data I do not know. Any idea?

-
You really want to calculate 6*200 = 1200 separate linear regressions? It's easy enough with `sapply` or a `for` loop, but that's an odd task. Please verify. –  Carl Witthoft Nov 20 '13 at 13:53
yes I would like to do this "to calculate 6*200 = 1200 separate linear regressions" Can you tell me how to use sapply? –  sacvf Nov 20 '13 at 13:56
Didn't you ask the same question yesterday here (now deleted)? stackoverflow.com/questions/20076785/… –  Julián Urbano Nov 20 '13 at 13:58
People were complaining that I didn't give a reproducible example that's why I removed it and came up with another one with a a reproducible example. –  sacvf Nov 20 '13 at 14:12

Here's a start:

``````myfits<-list()

for (j in 1:600) {
for(k in 1:6) {
ins <- c(at1[k,j],at2[k,j],at3[k,j])
outs <- c(mat1[k,j],mat2[k,j],mat3[k,j])
lmfit <-lm(outs~ins)
myfits[[( k + (j-1)*6)]]<-lmfit
}
}
``````

That will give you a list of all the linfits; you can then extract the coefficients (`list[[n]]\$coefficients`) in a similar loop. There are more compact ways to do this but I wanted to make it clear what's happening.

-
Thanks Carl but normally we have more than 3 files, so we will not write them manually one be one as you did .any idea? –  sacvf Nov 20 '13 at 14:18
Error in at1[k, j] : subscript out of bounds. and `Error: object 'n' not found` –  sacvf Nov 20 '13 at 14:19
@sacvf you have to do a little thinking on your own. I threw "n" in there as a placeholder index. Do you understand what a list variable is? And if the subscript is out of bounds, then clearly your `at1` matrix doesn't have as many rows or columns as in the example. Try to find what's wrong on your own! –  Carl Witthoft Nov 20 '13 at 14:43
Yes, there are ways to collect the `[k,j]` element of all objects in some collection. Take a look at `?ls` and `?get` . –  Carl Witthoft Nov 20 '13 at 14:45
But the output should be two matrix one for(intercept) and the other for coeffecient –  sacvf Nov 20 '13 at 15:38