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Is there a function that could be used to fit a frequency distribution in R? I'm aware of fitdistr but as far as I can tell it only works for data vectors (random samples). Also, I know that converting between the two formats is trivial but frequencies are so large that memory is a concern.

For example, fitdistr may be used the following way:

x<-rpois(100, lambda=10)
fitdistr(x,"poisson")

Is there a function that would do the same fitting on a frequency table? Something along the lines:

freqt <- as.data.frame(table(x))
fitfreqtable(freqt$x, weights=freqt$Freq, "poisson")

Thanks!

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2  
Can you give an example of your non-vector data that has these problems? –  gung Jun 23 '13 at 17:31
    
@gung, thank you for the quick reply. You're right, the question is only related to R so my apologies for posting off-topic. I'm flagging it as recommended. –  Florin Coras Jun 23 '13 at 20:32
    
No problem, @FlorinCoras. In the interim, would you mind editing your Q to give an example? When you get to SO, people will want to know. –  gung Jun 23 '13 at 20:35
    
I take it that reconstructing the original data is a non-option here? y <- rep(freqt$x, freqt$Freq); fitdistr(y, "poisson") –  Dason Jun 23 '13 at 22:34
    
@Dason, I'd like to avoid it since frequencies may add up to billions. –  Florin Coras Jun 23 '13 at 22:57
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1 Answer

up vote 2 down vote accepted

There's no built-in function that I know of for fitting a distribution to a frequency table. Note that, in theory, a continuous distribution is inappropriate for a table, since the data is discrete. Of course, for large enough N and a fine enough grid, this can be ignored.

You can build your own model-fitting function using optim or any other optimizer, if you know the density that you're interested in. I did this here for a gamma distribution (which was a bad assumption for that particular dataset, but never mind that).

Code reproduced below.

negll <- function(par, x, y)
{
    shape <- par[1]
    rate <- par[2]
    mu <- dgamma(x, shape, rate) * sum(y)
    -2 * sum(dpois(y, mu, log=TRUE))
}


optim(c(1, 1), negll, x=seq_along(g$count), y=g$count, method="L-BFGS-B", lower=c(.001, .001))
$par
[1] 0.73034879 0.00698288

$value
[1] 62983.18

$counts
function gradient 
      32       32 

$convergence
[1] 0

$message
[1] "CONVERGENCE: REL_REDUCTION_OF_F <= FACTR*EPSMCH"
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thanks for your answer. I was hoping to avoid building my own model fitting functions but, as you mention, it seems there's no curve fitting procedure that works similarly to fitdistr. –  Florin Coras Jun 24 '13 at 8:42
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