LogNormal: Create a LogNormal distribution
In alexpghayes/distributions: Probability Distributions as S3 Objects
LogNormal R Documentation
Create a LogNormal distribution
Description
A random variable created by exponentiating a Normal()
distribution. Taking the log of LogNormal data returns in
Normal() data.
Usage
LogNormal(log_mu = 0, log_sigma = 1)
Arguments
log_mu
The location parameter, written \mu in textbooks.
Can be any real number. Defaults to 0.
log_sigma
The scale parameter, written \sigma in textbooks.
Can be any positive real number. Defaults to 1.
Details
We recommend reading this documentation on
https://alexpghayes.github.io/distributions3/, where the math
will render with additional detail and much greater clarity.
In the following, let X be a LogNormal random variable with
success probability p = p.
Support: R^+
Mean: \exp(\mu + \sigma^2/2)
Variance: [\exp(\sigma^2)-1]\exp(2\mu+\sigma^2)
Probability density function (p.d.f):
f(x) = \frac{1}{x \sigma \sqrt{2 \pi}} \exp \left(-\frac{(\log x - \mu)^2}{2 \sigma^2} \right)
Cumulative distribution function (c.d.f):
F(x) = \frac{1}{2} + \frac{1}{2\sqrt{pi}}\int_{-x}^x e^{-t^2} dt
Moment generating function (m.g.f):
Undefined.
Value
A LogNormal object.
See Also
Other continuous distributions:
Beta(),
Cauchy(),
ChiSquare(),
Erlang(),
Exponential(),
FisherF(),
Frechet(),
GEV(),
GP(),
Gamma(),
Gumbel(),
Logistic(),
Normal(),
RevWeibull(),
StudentsT(),
Tukey(),
Uniform(),
Weibull()
Examples
set.seed(27)
X <- LogNormal(0.3, 2)
X
random(X, 10)
pdf(X, 2)
log_pdf(X, 2)
cdf(X, 4)
quantile(X, 0.7)
alexpghayes/distributions documentation built on Feb. 10, 2024, 9:50 a.m.
R Package Documentation
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| LogNormal | R Documentation |
Create a LogNormal distribution
Description
A random variable created by exponentiating a Normal()
distribution. Taking the log of LogNormal data returns in
Normal() data.
Usage
LogNormal(log_mu = 0, log_sigma = 1)
Arguments
log_mu |
The location parameter, written |
log_sigma |
The scale parameter, written |
Details
We recommend reading this documentation on https://alexpghayes.github.io/distributions3/, where the math will render with additional detail and much greater clarity.
In the following, let X be a LogNormal random variable with
success probability p = p.
Support: R^+
Mean: \exp(\mu + \sigma^2/2)
Variance: [\exp(\sigma^2)-1]\exp(2\mu+\sigma^2)
Probability density function (p.d.f):
f(x) = \frac{1}{x \sigma \sqrt{2 \pi}} \exp \left(-\frac{(\log x - \mu)^2}{2 \sigma^2} \right)
Cumulative distribution function (c.d.f):
F(x) = \frac{1}{2} + \frac{1}{2\sqrt{pi}}\int_{-x}^x e^{-t^2} dt
Moment generating function (m.g.f): Undefined.
Value
A LogNormal object.
See Also
Other continuous distributions:
Beta(),
Cauchy(),
ChiSquare(),
Erlang(),
Exponential(),
FisherF(),
Frechet(),
GEV(),
GP(),
Gamma(),
Gumbel(),
Logistic(),
Normal(),
RevWeibull(),
StudentsT(),
Tukey(),
Uniform(),
Weibull()
Examples
set.seed(27)
X <- LogNormal(0.3, 2)
X
random(X, 10)
pdf(X, 2)
log_pdf(X, 2)
cdf(X, 4)
quantile(X, 0.7)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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