14.1 Negative binomial distribution
For the negative binomial distribution Stan uses the parameterization described in Gelman et al. (2013). For alternative parameterizations, see section negative binomial glm.
14.1.1 Probability mass function
If \(\alpha \in \mathbb{R}^+\) and \(\beta \in \mathbb{R}^+\), then for \(n \in \mathbb{N}\), \[ \text{NegBinomial}(n~|~\alpha,\beta) = \binom{n + \alpha - 1}{\alpha - 1} \, \left( \frac{\beta}{\beta+1} \right)^{\!\alpha} \, \left( \frac{1}{\beta + 1} \right)^{\!n} \!. \]
The mean and variance of a random variable \(n \sim \text{NegBinomial}(\alpha,\beta)\) are given by \[ \mathbb{E}[n] = \frac{\alpha}{\beta} \ \ \text{ and } \ \ \text{Var}[n] = \frac{\alpha}{\beta^2} (\beta + 1). \]
14.1.2 Sampling statement
n ~
neg_binomial
(alpha, beta)
Increment target log probability density with neg_binomial_lupmf(n | alpha, beta)
.
14.1.3 Stan functions
real
neg_binomial_lpmf
(ints n | reals alpha, reals beta)
The log negative binomial probability mass of n
given shape alpha
and
inverse scale beta
real
neg_binomial_lupmf
(ints n | reals alpha, reals beta)
The log negative binomial probability mass of n
given shape alpha
and
inverse scale beta
dropping constant additive terms
real
neg_binomial_cdf
(ints n, reals alpha, reals beta)
The negative binomial cumulative distribution function of n
given
shape alpha
and inverse scale beta
real
neg_binomial_lcdf
(ints n | reals alpha, reals beta)
The log of the negative binomial cumulative distribution function of n
given shape alpha
and inverse scale beta
real
neg_binomial_lccdf
(ints n | reals alpha, reals beta)
The log of the negative binomial complementary cumulative distribution
function of n
given shape alpha
and inverse scale beta
R
neg_binomial_rng
(reals alpha, reals beta)
Generate a negative binomial variate with shape alpha
and inverse
scale beta
; may only be used in transformed data and generated quantities blocks.
alpha
\(/\) beta
must be less than \(2 ^ {29}\). For a description of argument and
return types, see section vectorized function signatures.