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 ⇤ ← Revision 4 as of 2008-02-12 17:30:27 → Size: 1095 Editor: PeterWatson Comment: ← Revision 5 as of 2008-02-12 17:30:49 → ⇥ Size: 1101 Editor: PeterWatson Comment: Deletions are marked like this. Additions are marked like this. Line 1: Line 1: = How do I produce random variables which follow a negative skew distribution? = = How do I produce random variables which follow a negatively skewed distribution? = Line 3: Line 3: Most distributions such as the exponential and log-Normal distributions are positive skewed with the mode of the distribution occurring for lower values. Most distributions such as the exponential and log-Normal distributions are positively skewed with the mode of the distribution occurring for lower values.

# How do I produce random variables which follow a negatively skewed distribution?

Most distributions such as the exponential and log-Normal distributions are positively skewed with the mode of the distribution occurring for lower values.

The Gamma distribution[http://www.aiaccess.net/English/Glossaries/GlosMod/e_gm_gamma_distri.htm may be produced by summing exponential distributions.] There are two parameters, n and $$\lambda$$. n is the number of summed exponentials and $$\lambda$$ is the exponential rate. When $$\lambda$$ is very small compared to n a negative skewed version of the gamma distribution results with no upper limit.

The below produces two exponential random variables (n=2) with a very small $$\lambda$$ (=1/10000) in SPSS. One simulated data set produced using this macro had a skew of -1.03.

define !gamma ( !pos !tokens(1)
/!pos !tokens(1)).
!do !i=!1 !to !2 !by 1.
compute !concat(a,!i)=-(10000)*ln(rv.uniform(0,1)*10000).
!doend.
!enddefine.

!gamma 1 2.
exe.

compute sum=0.
exe.

compute sum=-(a1+a2).
exe.

None: FAQ/gamma (last edited 2013-03-08 10:17:36 by localhost)