Author Question: How do you take the derivative of the function that defines the Poisson random variable? (Read 1196 times)

Melanie · **on:** Jun 19, 2013

According to the books that I have seen, the Poisson random variable is defined to be lamba to the x times e to the minus x, all that over x factorial. I know how to take the derivative of lamba to the x, and I know how to take the derivative of e to the minus x, but how do you take the derivative of x factorial?
What is the derivative of the function that defines the Poisson random variable?

Jesse_J · **Reply #1 on:** Jun 19, 2013

Does not compute, as some people say. My book says the Poisson distribution is defined by

f(x; lambda) = lambda^x e^(-lambda) / x!

Moreover, x is an integer, so you can't really take the continuous derivative with respect to x. You could approximate something like it, by taking the 3 points at x-1, x, and x+1, and fitting a polynomial to it.

Perhaps better would be to have a generalization of the Poisson distribution for continuous event numbers k. This can be achieved by replacing the factorial by the gamma-function, G(k + 1).

Melanie · **Reply #2 on:** Jun 24, 2013

Thanks

Author Question: How do you take the derivative of the function that defines the Poisson random variable? (Read 1196 times)

Melanie

How do you take the derivative of the function that defines the Poisson random variable?

Jesse_J

How do you take the derivative of the function that defines the Poisson random variable?

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Melanie

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