Fit FMKL generalised distribution to data using discretised approach without weights.
This function fits FMKL generalised distribution to data using discretised approach without weights. It is designed to act as a smoother device rather than as a definitive fit.
fun.RMFMKL.hs.nw(data, default = "Y", fmkl.init = c(-0.25, 1.5), no.c.fmkl = 50, leap = 3,FUN="runif.sobol",no=10000)
data |
Dataset to be fitted |
default |
If yes, this function uses the default method
|
fmkl.init |
Initial values for FMKL distribution optimization,
|
no.c.fmkl |
Number of classes or bins of histogram to be optimized over.
This argument is ineffective if |
leap |
Scrambling (0,1,2,3) for the Sobol sequence for the distribution
fit. See scrambling/leap argument for |
FUN |
A character string of either |
no |
Number of initial random values to find the best initial values for optimisation. |
This function optimises the deviations of frequency of the bins to that of the theoretical so it has the effect of "fitting clothes" onto the data set. The user can decide the frequency of the bins they want the distribution to smooth over. The resulting fit may or may not be an adequate fit from a formal statistical point of view such as satisfying the goodness of fit for example, but it can be useful to suggest the range of different distributions exhibited by the data set. The default number of classes calculates the mean and variance after categorising the data into different bins and uses the number of classes that best matches the mean and variance of the original, ungrouped data.
A vector representing four parameters of the FMKL generalised lambda distribution.
In some cases, the resulting fit may not converge, there are currently no checking mechanism in place to ensure global convergence.
Steve Su
Su, S. (2005). A Discretized Approach to Flexibly Fit Generalized Lambda Distributions to Data. Journal of Modern Applied Statistical Methods (November): 408-424.
Su (2007). Fitting Single and Mixture of Generalized Lambda Distributions to Data via Discretized and Maximum Likelihood Methods: GLDEX in R. Journal of Statistical Software: *21* 9.
## Using the default number of classes # fun.RMFMKL.hs.nw(data=rnorm(1000,3,2),default="Y", # fmkl.init=c(-0.25,1.5),leap=3) ## Using 20 classes # fun.RMFMKL.hs.nw(data=rnorm(1000,6,5),default="N",fmkl.init=c(-0.25,1.5), # no.c.fmkl=20,leap=3)
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