Learn R Programming

cylcop (version 0.2.0)

lnormmix: Density, Distribution, Quantiles and Random Number Generation for the mixed log-normal distribution

Description

The number of components in the mixed log-normal distribution is specified by the length of the parameter vectors. The quantiles are numerically obtained from the distribution function using monotone cubic splines.

Usage

rlnormmix(n, meanlog, sdlog, prop)

dlnormmix(x, meanlog, sdlog, prop)

plnormmix(q, meanlog, sdlog, prop)

qlnormmix(p, meanlog, sdlog, prop)

Value

  • dlnormmix() gives a vector of length length(x) containing the density at x.

  • plnormmix() gives a vector of length length(q) containing the distribution function at the corresponding values of q.

  • qlnormmix() gives a vector of length length(p) containing the quantiles at the corresponding values of p.

  • rlnormmix() generates a vector of length n containing the random samples.

Arguments

n

integer value, the number of random samples to be generated with rlnormmix().

meanlog

numeric vector holding the means of the components on the log scale.

sdlog

numeric vector holding the standard deviations of the components on the log scale.

prop

numeric vector, holding the mixing proportions of the components.

x

numeric vector giving the points where the density function is evaluated.

q

numeric vector giving the quantiles where the distribution function is evaluated.

p

numeric vector giving the probabilities where the quantile function is evaluated.

Examples

Run this code

rlnormmix(10, meanlog = c(1, 3, 7), sdlog = c(2, 2, 4), prop = c(0.6, 0.3, 0.1))

dlnormmix(c(0, 2, 1), meanlog = c(1, 3), sdlog = c(2, 2), prop = c(0.6, 0.4))

prob <- plnormmix(c(0.1, 7), meanlog = c(1, 3, 7), sdlog = c(2, 2, 4), prop = c(0.6, 0.3, 0.1))
prob
qlnormmix(prob, meanlog = c(1, 3, 7), sdlog = c(2, 2, 4), prop = c(0.6, 0.3, 0.1))

Run the code above in your browser using DataLab