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I am a newbie in Java. I know Java has a random number generator function from Gaussian Distribution. As I have known from other question Java's built-in random generator is not that good because it doesn't take input mean and standard deviation of Gaussian Distribution which I need most. I am working on Genetic Algorithm. For the purpose of mutation I have to generate random number from Gaussian Distribution, Cauchy Distribution and Levy Distribution. Generator function must take input Scale Parameter and Location Parameter of that distribution. How can I do this?

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Java does not have those built-in. You will have to make you own functions, or find a 3rd party library that does.

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CauchyDistribution from package org.apache.commons.math3.distribution seems to what you want.

Java doesn't have this stuff builtin.

If you object to the jarfile bloat from that package, you'll have to roll your own, similar to this example for Gaussian.

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Eventhough the question is kinda old I'll try to answer as I was looking for the same thing and it could help the next person:

To implement a rng for an arbitrary distribution you need to know the following:

  1. Generating uniformly distributed numbers in the [0,1) range is no problem
  2. The derivation of a distributionfunction is the distribution density (e.g. the Gaussian Bell Curve)
  3. The distributionfunction is (more or less) 0 at -Infinity and 1 at Infinity. Between those extremes it increases monotically.

Now you have to use these things (at least 1. and 3.) in the following way:

  1. Calculate the distribution function (integrating the density)
  2. Solve this equation for x
  3. In the resulting function pass a uniformly distributed number as parameter to get appropriately distributed results.


Cauchy distribution:

f(x) = 1/(x²+1)/Pi

  1. Distribution function:

y = F(x) = arctan(x)/Pi + 0.5 (it's necessary to add 0.5 to get a R -> [0,1] function

  1. Solve for x

x = G(y) = tan(y-0.5)*Pi (G is the inverse to F - usually F^(-1)

  1. Now just put a generated double as y in the function:

    return Math.tan(rand.nextDouble()-0.5)*Math.Pi;

For the Scale and Location Parameter you only have to do the following:

X is your Gaussian (meaning: N(0,1) ) distributed stochastic variable.

Mean(a*X + b) = a*mean(X)+b Var(a*X + b) = a²*Var(X)

a is your scale parameter, b is your location parameter. Therefore generate a Standard Gaussian distributed variable and multiply with sqrt(scale) and add the location parameter.

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