dist.Normal.Mixture: Mixture of Normal Distributions
In LaplacesDemonR/LaplacesDemon: Complete Environment for Bayesian Inference
dist.Normal.Mixture R Documentation
Mixture of Normal Distributions
Description
These functions provide the density, cumulative, and random generation
for the mixture of univariate normal distributions with probability
p, mean \mu and standard deviation \sigma.
Usage
dnormm(x, p, mu, sigma, log=FALSE)
pnormm(q, p, mu, sigma, lower.tail=TRUE, log.p=FALSE)
rnormm(n, p, mu, sigma)
Arguments
x, q
This is vector of values at which the density will be evaluated.
p
This is a vector of length M of probabilities for M
components. The sum of the vector must be one.
n
This is the number of observations, which must be a positive
integer that has length 1.
mu
This is a vector of length M that is the mean
parameter \mu.
sigma
This is a vector of length M that is the standard
deviation parameter \sigma, which must be positive.
lower.tail
Logical. This defaults to TRUE.
log, log.p
Logical. If TRUE, then probabilities
p are given as \log(p).
Details
Application: Continuous Univariate
Density: p(\theta) = \sum p_i \mathcal{N}(\mu_i,
\sigma^2_i)
Inventor: Unknown
Notation 1: \theta \sim \mathcal{N}(\mu, \sigma^2)
Notation 2: p(\theta) = \mathcal{N}(\theta | \mu,
\sigma^2)
Parameter 1: mean parameters \mu
Parameter 2: standard deviation parameters \sigma > 0
Mean: E(\theta) = \sum p_i \mu_i
Variance: var(\theta) = \sum p_i \sigma^{0.5}_i
Mode:
A mixture distribution is a probability distribution that is a
combination of other probability distributions, and each distribution is
called a mixture component, or component. A probability (or weight)
exists for each component, and these probabilities sum to one. A
mixture distribution (though not these functions here in particular) may
contain mixture components in which each component is a different
probability distribution. Mixture distributions are very flexible, and
are often used to represent a complex distribution with an unknown
form. When the number of mixture components is unknown, Bayesian
inference is the only sensible approach to estimation.
A normal mixture, or Gaussian mixture, distribution is a combination of
normal probability distributions.
Value
dnormm gives the density,
pnormm returns the CDF, and
rnormm generates random deviates.
Author(s)
Statisticat, LLC. software@bayesian-inference.com
See Also
ddirichlet and
dnorm.
Examples
library(LaplacesDemon)
p <- c(0.3,0.3,0.4)
mu <- c(-5, 1, 5)
sigma <- c(1,2,1)
x <- seq(from=-10, to=10, by=0.1)
plot(x, dnormm(x, p, mu, sigma, log=FALSE), type="l") #Density
plot(x, pnormm(x, p, mu, sigma), type="l") #CDF
plot(density(rnormm(10000, p, mu, sigma))) #Random Deviates
LaplacesDemonR/LaplacesDemon documentation built on April 1, 2024, 7:22 a.m.
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| dist.Normal.Mixture | R Documentation |
Mixture of Normal Distributions
Description
These functions provide the density, cumulative, and random generation
for the mixture of univariate normal distributions with probability
p, mean \mu and standard deviation \sigma.
Usage
dnormm(x, p, mu, sigma, log=FALSE)
pnormm(q, p, mu, sigma, lower.tail=TRUE, log.p=FALSE)
rnormm(n, p, mu, sigma)
Arguments
x, q |
This is vector of values at which the density will be evaluated. |
p |
This is a vector of length |
n |
This is the number of observations, which must be a positive integer that has length 1. |
mu |
This is a vector of length |
sigma |
This is a vector of length |
lower.tail |
Logical. This defaults to |
log, log.p |
Logical. If |
Details
Application: Continuous Univariate
Density:
p(\theta) = \sum p_i \mathcal{N}(\mu_i, \sigma^2_i)Inventor: Unknown
Notation 1:
\theta \sim \mathcal{N}(\mu, \sigma^2)Notation 2:
p(\theta) = \mathcal{N}(\theta | \mu, \sigma^2)Parameter 1: mean parameters
\muParameter 2: standard deviation parameters
\sigma > 0Mean:
E(\theta) = \sum p_i \mu_iVariance:
var(\theta) = \sum p_i \sigma^{0.5}_iMode:
A mixture distribution is a probability distribution that is a combination of other probability distributions, and each distribution is called a mixture component, or component. A probability (or weight) exists for each component, and these probabilities sum to one. A mixture distribution (though not these functions here in particular) may contain mixture components in which each component is a different probability distribution. Mixture distributions are very flexible, and are often used to represent a complex distribution with an unknown form. When the number of mixture components is unknown, Bayesian inference is the only sensible approach to estimation.
A normal mixture, or Gaussian mixture, distribution is a combination of normal probability distributions.
Value
dnormm gives the density,
pnormm returns the CDF, and
rnormm generates random deviates.
Author(s)
Statisticat, LLC. software@bayesian-inference.com
See Also
ddirichlet and
dnorm.
Examples
library(LaplacesDemon)
p <- c(0.3,0.3,0.4)
mu <- c(-5, 1, 5)
sigma <- c(1,2,1)
x <- seq(from=-10, to=10, by=0.1)
plot(x, dnormm(x, p, mu, sigma, log=FALSE), type="l") #Density
plot(x, pnormm(x, p, mu, sigma), type="l") #CDF
plot(density(rnormm(10000, p, mu, sigma))) #Random Deviates
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