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I want to fit three parameter log-normal distribution (See here for reference) in R.

My MWE is below:

set.seed(12345)
library(FAdist)
X <- rlnorm3(n=100, shape = 2, scale = 1.5, thres = 1)

# m: Location Parameter
# s: Scale Parameter
# t: Threshold Parameter
LL3 <- function(X, m, s, t)(1/((X-t)*s*(2*pi)^0.5))*exp(((-(log(X-t)-m)^2)/(2*s^2)))

library(MASS)
fitdistr(x=X, densfun=LL3, start=list(m=2, s=1.5, t=1))

But this code throws the following error message:

Error in stats::optim(x = c(30.9012208754183, 223.738029433835,
46.4287558537441,  :    non-finite finite-difference value [3] In addition: Warning message: In log(X - t) : NaNs produced

Is there any R package to fit three parameter distributions like three parameter Log-normal, Gamma, Weibull, and Log-logistic distributions?

share|improve this question
1  
The error message is consistent with having t>=X, resulting in log(X-t) not being defined. Could you try to set some constraints to your optimization, by using the optional argument upper= in the call to fitdistr? Alternatively, you could rewrite your function LL3 so that it returns 0 when t>=X. – Jealie May 13 '14 at 13:05
    
Thanks @Jealie for your answer. Would you mind to suggest any changes in the code. Thanks – MYaseen208 May 13 '14 at 13:35
    
LL3 <- function(X, m, s, t)ifelse(t>=X,0,(1/((X-t)*s*(2*pi)^0.5))*exp(((-(log(X-t)-m)^2)/(2*s^2)))) – Jealie May 13 '14 at 13:37
1  
@Jealie also, there should be strict greater than according to the paper. ifelse(t>X,0.... It still the same error though unfortunately. – Csislander May 13 '14 at 13:47
1  
@Csislander: Actually you need to catch the case in which t==X, because log(0) is not defined. Otherwise, I am unable to test the expression myself, but I bet that the warning disappeared and was replaced by something else? – Jealie May 13 '14 at 13:49
up vote 2 down vote accepted

In fact, it looks as though dlnorm3 (which is built into the FAdist package) already returns a zero probability when x<=thres, so plugging dlnorm3 straight into fitdistr appears to work fine:

set.seed(12345)
library(FAdist)
library(MASS)
X <- rlnorm3(n=100, shape = 2, scale = 1.5, thres = 1)
fitdistr(X,dlnorm3,start=list(shape = 2, scale = 1.5, thres = 1))

Results:

     shape        scale        thres   
  2.31116615   1.94366899   1.02798643 
 (0.18585476) (0.23426764) (0.01480906)

This does fail if we use the rllog3 function to generate values (we get much more extreme values):

Y <- rllog3(n=100, shape = 2, scale = 1.5, thres = 1)
fitdistr(Y,dlnorm3,start=list(shape = 2, scale = 1.5, thres = 1),
            method="Nelder-Mead")
## Error in stats::optim(x = c(10.1733112422871, 
##       310.508398424974, 1.08946140904075,  : 
##  non-finite finite-difference value [3]

Using debug(optim), it appears that if we switch to Nelder-Mead we can postpone the problem until the Hessian is computed.

If we use bbmle::mle2 instead we can get at least get the coefficients (with a warning that the Hessian can't be inverted ...)

library(bbmle)
mle2(Y~dlnorm3(m,s,t),
     data=data.frame(Y),
     start=list(m= 2, s = 1.5, t = 1),
         method="Nelder-Mead")


## Call:
## mle2(minuslogl = Y ~ dlnorm3(m, s, t), start = list(m = 2, s = 1.5, 
##     t = 1), method = "Nelder-Mead", data = data.frame(Y))

## Coefficients:
##        m        s        t 
## 4.227529 1.606202 1.001115 

## Log-likelihood: -440.27 
## Warning message:
## In mle2(Y ~ dlnorm3(m, s, t), data = data.frame(Y), start = list(m = 2,  :
##   couldn't invert Hessian
share|improve this answer
    
Wow, much much simplified. Thanks – MYaseen208 May 13 '14 at 14:51
    
There is a typo in Y <- rllog3(n=100, shape = 2, scale = 1.5, thres = 1) fitdistr(Y,dlnorm3,start=list(shape = 2, scale = 1.5, thres = 1), method="Nelder-Mead"). dlnorm3 should be replaced by dllog3. – MYaseen208 May 13 '14 at 14:59
    
actually, I intended to fit with dlnorm3. The point is to see how you can get the model to fit even if the data are weird/the model is misspecified. – Ben Bolker May 13 '14 at 15:08

The error message indicates that there was problem in estimating the gradient of objective function. There are several reasons this could happen, but the most likely is that one of the parameters are becoming negative or causing negative values during the distribution fitting/optimization process (likely your threshold parameter becoming larger than your lognormal variable, in which case, the distribution should be 0 at those points... unfortunately, fitdistr doesn't know that).

The best way to fix this kind of problem is either to try different starting parameters or perhaps find a way to make the distribution be 0 in these cases within fitdistr.

Edit: Additionally, the code has other errors, so try, as Jealie suggested:

LL3 <- function(X, m, s, t)ifelse(t>=X,0,(1/((X-t)*s*(2*pi)^0.5))*exp(((-(log(X-t)-m)^2)/(2*s^2)))) 

and rlnorm3 rather than rllog3

share|improve this answer
    
Thanks @Csislander for your answer. Would you mind to suggest any changes in the code. Thanks – MYaseen208 May 13 '14 at 13:34
    
Wonder how to put constraint S>0 in fitdistr. – MYaseen208 May 13 '14 at 14:45
    
I believe there is a lower argument that is passed to the optim function that takes an input vector of lower bounds for your parameters. See: stat.ethz.ch/R-manual/R-patched/library/stats/html/optim.html – Csislander May 13 '14 at 14:48

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