up vote 0 down vote favorite
share [g+] share [fb]

This picture from wikipedia has a nice example of the sort of functions I'd ideally like to generate

http://en.wikipedia.org/wiki/File:Normal_Distribution_PDF.svg

Right now I'm using the Irwin-Hall Distribution, which is more or less a Polynomial approximation of the Gaussian distribution...basically, you use uniform random number generator and iterate it x times, and take the average. The more iterations, the more like a Gaussian Distribution it is.

It's pretty nice; however I'd like to be able to have one where I can vary the mean. For example, let's say I wanted a number between the range 0 and 10, but around 7. Like, the mean (if I repeated this function multiple times) would turn out to be 7, but the actual range is 0-10.

Is there one I should look up, or should I work on doing some fancy maths with standard Gaussian Distributions?

link|improve this question
86% accept rate
Hmmm not at 7:57am lol – Aiden Bell May 14 '10 at 6:57
feedback

2 Answers

up vote 1 down vote accepted

I see a contradiction in your question. From one side you want normal distribution which is symmetrical by it's nature, from other side you want the range asymmetrically disposed to mean value.

I suspect you should try to look at other distributions density functions of which are like bell curve but asymmetrical. Like log distribution or beta distribution.

link|improve this answer
I never said I wanted a normal curve; just a probability function that is shaped like the one with mean=-2 in the linked picture. I'll look into those, thanks =) – Justin L. May 14 '10 at 7:15
That shape is still normal, and thus symmetric. The figure is misleading because it suggests that the range is constrained to the visible part of the x-axis shown, which is not the case, it extends to infinity in both directions. The probability of drawing from the distant tails gets fantastically small but remains non-zero. In practice you could probably clip, but your distribution would still not be what you want. I suspect the simplest approach would be to average draws from a triangular distribution with the desired mode, but I'd need to work through that to be sure. – walkytalky May 14 '10 at 12:54
No, come to think of it, that will just tend to normal as well -- hello Central Limit Theorem! – walkytalky May 14 '10 at 13:22
feedback
up vote 0 down vote

Look into generating normal random variates. You can generate pairs of normal random variates X = N(0,1) and tranform it into ANY normal random variate Y = N(m,s) (Y = m + s*X).

link|improve this answer
feedback

Your Answer

 
or
required, but never shown
discard

Not the answer you're looking for? Browse other questions tagged or ask your own question.