I have 4 populations with known means and standard deviations. I would like to know the grand mean and grand sd. The grand mean is obviously simple to calculate, but R has a handy utility function, weighted.mean(). Does a similar function exist for combining standard deviations?

The calculation is not complicated, but an existing function would make my code cleaner and easier to understand.

Bonus question, what tools do you use to search for functions like this? I know it must be out there, but I've done a lot of searching and can't find it. Thanks!

  • Regarding your search question, findFn from the sos package is a handy tool. – joran Feb 10 '12 at 2:55
  • @AndresT, yes, the populations are non-overlapping. – Sam Swift Feb 10 '12 at 3:00
  • @joran Thanks, I didn't know about that, I'll start searching that way. I'm guessing 'standard deviation' is going to be a popular term in the R manuals – Sam Swift Feb 10 '12 at 3:00

Are the populations non overlapping?


For instance the example in wikipedia would work like this:

xbar <- c(70,65)
n <- c(1,1)

and standard deviation would be sqrt(combinevar(xbar,s,n)[2])

if you don't want to download the library the function goes like this:

combinevar <- 
function (xbar = NULL, s_squared = NULL, n = NULL) 
    if (length(xbar) != length(s_squared) | length(xbar) != length(n) | 
        length(s_squared) != length(n)) 
        stop("Vector lengths are different.")
    sum_of_squares <- sum((n - 1) * s_squared + n * xbar^2)
    grand_mean <- sum(n * xbar)/sum(n)
    combined_var <- (sum_of_squares - sum(n) * grand_mean^2)/(sum(n) - 
    return(c(grand_mean, combined_var))

I don't know of a specific package or function name but it seems easy to roll your own function from Wikipedia's page. Assuming no overlap in the populations:

## N: vector of sizes
## M: vector of means
## S: vector of standard deviations

grand.mean <- function(M, N) {weighted.mean(M, N)}
grand.sd   <- function(S, M, N) {sqrt(weighted.mean(S^2 + M^2, N) -
                                      weighted.mean(M, N)^2)}
  • Thanks very much for this answer flodel. When looking at the formula on wikipedia, I didn't think I could make the calculation look as simple as you did. I may in fact just use this, but AndresT's response is a bit more comprehensive for others finding this question. Thanks! – Sam Swift Feb 10 '12 at 15:30

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