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I am trying to run a stepwise regression using AIC (through step) with 1,400 variables, but my computer just freezes. It works if I include <300 variables (after 13 hrs of running).

Is there a way to eliminate some of the variables (if p-value >.7) before I run the stepwise regression?

# Polynomial Regression
REG19 <- lm(R10 ~ poly(M1, 3) + poly(M2, 3) + poly(M3, 3), WorkData)

# Is there a way to get rid of variables with 
# p values >.7 at this point of the code?

# Beginning of stepwise regression
n <- length(resid(REG19))
REG20 <- step(REG19, direction="backward", k=log(n))
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  • Could you add a sample of your data with dput(head(df,n))? Choose n as you may find sufficient for reproducibility.
    – NelsonGon
    Jun 16, 2019 at 5:35
  • Do you want to try something like this: coef(summary(lm("Petal.Length~Sepal.Length+Petal.Width",data = iris))) %>% as_tibble() %>% filter(bac_tick_here_Pr(>|t|) another_back_tick_here < 0.00000002)?
    – NelsonGon
    Jun 16, 2019 at 5:42
  • 1
    I strongly urge you to consult a statistician. Your basic approach is already very dubious but your p-value cut-off makes it even worse.
    – Roland
    Jun 16, 2019 at 8:42

1 Answer 1

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What you probably want is to exclude anything about the highest polynom where p <= .7 (lower degrees should be kept). Supposed you know what you're doing, you could write a function degAna() that analyzes the degrees of each polynomial and apply it to the coefficients matrix obtained by summary.

REG19 <- lm(R10 ~ poly(M1, 3) + poly(M2, 3) + poly(M3, 3) + poly(M4, 3) +
              poly(M5, 3) + poly(M6, 3) + poly(M7, 3) + poly(M8, 3) + 
              poly(M9, 3) + poly(M10, 3), WorkData)

rr <- summary(REG19)$coefficients

The function that detects highest degree with p <= .7:

degAna <- function(d) {
  out <- as.matrix(rr[grep(paste0(")", d), rownames(rr)), "Pr(>|t|)"] <= .7)
  dimnames(out) <- list(c(gsub("^.*\\((.*)\\,.+", "\\1", rownames(out))), d)
  return(out)
}

lapply degAna to coefficients matrix:

dM <- do.call(cbind, lapply(1:3, degAna))  # max. degree always 3 as in example
#         1     2     3
# M1   TRUE  TRUE  TRUE
# M2   TRUE  TRUE  TRUE
# M3  FALSE  TRUE  TRUE
# M4   TRUE  TRUE  TRUE
# M5   TRUE  TRUE  TRUE
# M6   TRUE FALSE  TRUE
# M7   TRUE FALSE FALSE
# M8   TRUE  TRUE  TRUE
# M9   TRUE  TRUE FALSE
# M10  TRUE FALSE  TRUE

Now we need the last degree of the polynomials where p <= .7:

tM <- apply(dM, 1, function(x) max(which(x != 0)))
tM <- tM[tM > 0]  # excludes polynomes where every p < .7
# M1  M2  M3  M4  M5  M6  M7  M8  M9 M10 
#  3   3   3   3   3   3   1   3   2   3 

(Note, that the apply will throw a warning if a polynomial has completely p <= .7, i.e. row is completely FALSE. Since we throw them out in the next line we can ignore the warning with apply(dM, 1, function(x) suppressWarnings(max(which(x != 0)))).)

With this information we can cobble together a new formula with reformulate,

terms.new <- paste0("poly(", names(tM), ", ", tM, ")")
FO <- reformulate(terms.new, response="R10")
# R10 ~ poly(M1, 3) + poly(M2, 3) + poly(M3, 3) + poly(M4, 3) + 
#     poly(M5, 3) + poly(M6, 3) + poly(M7, 1) + poly(M8, 3) + poly(M9, 
#     2) + poly(M10, 3)

with which we finally can do the desired shortened regression.

REG19.2 <- lm(FO, WorkData)

n <- length(resid(REG19.2))
REG20.2 <- step(REG19.2, direction="backward", k=log(n))
# [...]

Simulated Data

set.seed(42)
M1 <- rnorm(1e3)
M2 <- rnorm(1e3)
M3 <- rnorm(1e3)
M4 <- rnorm(1e3)
M5 <- rnorm(1e3)
M6 <- rnorm(1e3)
M7 <- rnorm(1e3)
M8 <- rnorm(1e3)
M9 <- rnorm(1e3)
M10 <- rnorm(1e3)
R10 <- 6 + 5*M1^3 + 4.5*M2^3 + 4*M3^2 + 3.5*M4 + 3*M5 + 2.5*M6 + 2*M7 + 
  .5*rnorm(1e3, 1, sd=20)
WorkData <- data.frame(M1, M2, M3, M4, M5, M6, M7, M8, M9, M10, R10)
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  • Thank you so much, but I got like 50 rows of this error after this line of code: "tM <- apply(dM, 1, function(x) max(which(x != 0)))"........................"Infno non-missing arguments to max; returning -Infno non-missing arguments to max; returning -Infno non-missing arguments to max; returning -Infno non-missing arguments to max; returning -Infno non-missing arguments to max; returning -Infno non-missing arguments to max; returning -" Jun 16, 2019 at 11:40
  • I did suppressWarnings() and it worked, but is that legal? Jun 16, 2019 at 12:21
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    Yes, I just added this to my answer with some explanation. When you check the output of the concerned line you'll find -Inf which indicates that no x != 0. We throw this cases out in the next line where we subset with tM[tM > 0] . These are just those cases where no polynomial degree had p<= .7 and will no more be included in the new formula. Ok?
    – jay.sf
    Jun 16, 2019 at 12:29
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    Thanks, that was an error in the terms.new line which referred rather back to dM instead of tM. I've changed it, does it work now?
    – jay.sf
    Jun 16, 2019 at 13:08
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    PERFECT! You are THE BEST! Jun 16, 2019 at 14:19

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