Overview

The Random Node generates a random outcome, usually a number.

This Node can be set to three different Modes (Advanced, Expert, and Standard). Each of these Modes offers a different set of Attributes that are explained below.

Attributes

Each Mode has a different set of Attributes. The Modes are: Advanced, Expert, and Standard.

Advanced

Generator

This Mode allows to choose whether the random generator is deterministic or not, and for the deterministic case, the seed to use.

Distribution

This Mode has a Drop-down menu from which the probability distribution used for the random generator can be chosen. Each option offers its own set of Attributes with the probability distribution parameters.

Next, the Attributes for each probability distribution are described. For each probability distribution, the link to its corresponding Wikipedia entry is given.

• Bernoulli

Probability distribution of a random variable that can take two values: true, with probability p; and false, with probability 1-p. When this distribution is chosen, the outcome of the Node is a Boolean.

• Binomial

Probability distribution of the number of successes in a sequence of independent experiments, each one with two possible outcomes: success and failure. The parameters for this probability distribution are the number of experiments and the probability of a successful outcome in each one.

• Normal

Symmetric probability distribution, with half its values less than the mean and half greater than the mean. The parameters are the mean, which equals the median and the mode, and the standard deviation.

• Poisson

Discrete probability distribution that expresses the probability of a given number of events occurring in a specified time period. Its parameter is the mean value.

• Uniform

Probability distribution in which all the values in an interval are equally likely to be drawn. It can either be continuous or discrete.

Expert

Generator

This Mode allows to choose from a list of several types of random generators.

Distribution

This Mode has a Drop-down menu from which the probability distribution to be used for the random generator can be chosen. Each option offers its own set of Attributes with the probability distribution parameters.

Next, the Attributes for each probability distribution are described. For each probability distribution, the link to its corresponding Wikipedia entry is given.

• Bernoulli

Probability distribution of a random variable that can take two values: true, with probability p; and false, with probability 1-p. When this distribution is chosen, the outcome of the Node is a Boolean.

• Binomial

Probability distribution of the number of successes in a sequence of independent experiment, each one with two possible outcomes: success and failure. The parameters for this probability distribution are the number of experiments and the probability of a successful outcome in each one.

• Cauchy

Probability distribution that resembles a normal distribution but with a taller peak, whose tails decay slower. Its parameters are the location of the peak and the scale - the latter defines its width.

• Chi_Squared

Probability distribution of a sum of the squares of a number of independent normal random variables. The number of normal random variables is called the degrees of freedom of the Chi-squared distribution.

• Exponential

Probability distribution of the time between events in a Poisson process. Its parameter is the rate at which the events in the Poison process occur.

• Extreme_Value

Limit distribution of properly normalized maxima of a sequence of independent and identically distributed random variables.

• Fisher_F

Ratio of two independent random variables with chi-squared distributions, each one divided by its corresponding number of degrees of freedom for scaling.

• Gamma

Maximum entropy probability distribution for a random variable, whose mean is the product between the shape and scale, which are the two parameters of the Gamma distribution.

• Geometric

The probability distribution of the number of experiments with a Bernoulli distribution needed to get one success.

• Lognormal

Probability distribution of a random variable whose logarithm has a normal distribution.

• Negative_Binomial

Probability distribution of the number of successes in a sequence of independent experiments, each with two possible outcomes: success and failure, before a specified non-random number of failures occur. The parameters for this probability distribution are the probability of a successful outcome in each experiment and the number of failures until the experiments stop.

• Normal

Symmetric probability distribution, with half its values less than the mean and half greater than the mean. The parameters are the mean, which equals the median and the mode, and the standard deviation.

• Poisson

Discrete probability distribution that expresses the probability of a given number of events occurring in a specified time period. Its parameter is the mean value.

• Student_T

Probability distribution that arises when estimating the mean of a normally-distributed statistical population with a small sample size and unknown standard deviation. Its parameter is the number of degrees of freedom, which is the number of observations taken from a normal distribution minus one.

• Uniform

Probability distribution in which all the values in an interval are equally likely to be drawn. It can either be continuous or discrete.

• Weibull

Standard

This Mode only uses a uniform distribution. It can either be discrete or continuous.

Distribution

Inputs

Outputs

External Links

• Random number generation on Wikipedia.

• Pseudorandom number generator on Wikipedia.

• List of probability distributions on Wikipedia.