[R] skewness and kurtosis in e1071 correct?

Campbell p.campbell at econ.bbk.ac.uk
Mon May 23 11:06:31 CEST 2005


This is probably an issue over definitions rather than the correct
answer.  To me skewness and kurtosis are functions of the distribution
rather than the population, they are equivalent to expectation rather
than mean.  For the normal distribution it makes no sense to estimate
them as the distribution is uniquely defined by its first two  moments. 
 However there are two defnitions of kurotsis as it is often
standardized such that the expectation is 0.

HTH 

Phineas  

www.pwp.phineas.blueyonder.co.uk


>>> Dirk Enzmann <dirk.enzmann at jura.uni-hamburg.de> 05/23/05 3:17 AM >>>
I wonder whether the functions for skewness and kurtosis in the e1071 
package are based on correct formulas.

The functions in the package e1071 are:

# --------------------------------------------
skewness <- function (x, na.rm = FALSE)
{
     if (na.rm)
         x <- x[!is.na(x)]
     sum((x - mean(x))^3)/(length(x) * sd(x)^3)
}
# --------------------------------------------

and

# --------------------------------------------
kurtosis <- function (x, na.rm = FALSE)
{
     if (na.rm)
         x <- x[!is.na(x)]
     sum((x - mean(x))^4)/(length(x) * var(x)^2) - 3
}
# --------------------------------------------

However, sd() and var() are the estimated population parameters. To 
calculate the sample statistics of skewness and kurtosis, shouldn't one 
use the sample statistics of the standard deviation (and variance), as 
well? For example:

# --------------------------------------------
# Function to calculate the sample statistic of skewness:
skew_s=function(x)
{
  x = x[!is.na(x)]
  n = length(x)
  if (n < 3)
  {
    cat('valid cases = ',n,'\nskewness is not defined for less than 3 
valid cases!\n')
  }
  else
  {
  z = sqrt(n/(n-1))*scale(x)
  mean(z^3)
  }
}
# --------------------------------------------

and

# --------------------------------------------
# Function to calculate the sample statistic of kurtosis:
kurt_s=function(x)
{
  x = x[!is.na(x)]
  n = length(x)
  if (n < 4)
  {
    cat('valid cases = ',n,'\nkurtosis is not defined for less than 4 
valid cases!\n')
  }
  else
  {
  z = sqrt(n/(n-1))*scale(x)
  mean(z^4)-3
  }
}
# --------------------------------------------

Whereas, to calculate the (unbiased) estimated population parameter of 
skewness and kurtosis, the correction should also include the number of 
cases in the following way:

# --------------------------------------------
# Function to calculate the unbiased populataion estimate of skewness:
skew=function(x)
{
  x = x[!is.na(x)]
  n = length(x)
  if (n < 3)
  {
    cat('valid cases = ',n,'\nskewness is not defined for less than 3 
valid cases!\n')
  }
  else
  {
  z = scale(x)
  sum(z^3)*n/((n-1)*(n-2))
  }
}
# --------------------------------------------

and

# --------------------------------------------
# Function to calculate the unbiased population estimate of kurtosis:
kurt=function(x)
{
  x = x[!is.na(x)]
  n = length(x)
  if (n < 4)
  {
    cat('valid cases = ',n,'\nkurtosis is not defined for less than 4 
valid cases!\n')
  }
  else
  {
  z = scale(x)
  sum(z^4)*n*(n+1)/((n-1)*(n-2)*(n-3))-3*(n-1)^2/((n-2)*(n-3))
  }
}
# --------------------------------------------

Thus, it seems that the formulas used in the e1071 package are neither 
formulas for the sample statistics nor for the (unbiased) estimates of 
the population parameters. Is there another definition of kurtosis and 
skewness that I am not aware of?

Dirk

-- 
*************************************************
Dr. Dirk Enzmann
Institute of Criminal Sciences
Dept. of Criminology
Edmund-Siemers-Allee 1
D-20146 Hamburg
Germany

phone: +49-040-42838.7498 (office)
        +49-040-42838.4591 (Billon)
fax:   +49-040-42838.2344
email: dirk.enzmann at jura.uni-hamburg.de
www: 
http://www2.jura.uni-hamburg.de/instkrim/kriminologie/Mitarbeiter/Enzmann/Enzmann.html

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