fweibullgpd: MLE Fitting of Weibull Bulk and GPD Tail Extreme Value...
In evmix: Extreme Value Mixture Modelling, Threshold Estimation and Boundary Corrected Kernel Density Estimation
Description
Usage
Arguments
Details
Value
Acknowledgments
Note
Author(s)
References
See Also
Examples
Description
Maximum likelihood estimation for fitting the extreme value
mixture model with Weibull for bulk distribution upto the threshold and conditional
GPD above threshold. With options for profile likelihood estimation for threshold and
fixed threshold approach.
Usage
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fweibullgpd(x, phiu = TRUE, useq = NULL, fixedu = FALSE,
pvector = NULL, std.err = TRUE, method = "BFGS",
control = list(maxit = 10000), finitelik = TRUE, ...)
lweibullgpd(x, wshape = 1, wscale = 1, u = qweibull(0.9, wshape,
wscale), sigmau = sqrt(wscale^2 * gamma(1 + 2/wshape) - (wscale *
gamma(1 + 1/wshape))^2), xi = 0, phiu = TRUE, log = TRUE)
nlweibullgpd(pvector, x, phiu = TRUE, finitelik = FALSE)
profluweibullgpd(u, pvector, x, phiu = TRUE, method = "BFGS",
control = list(maxit = 10000), finitelik = TRUE, ...)
nluweibullgpd(pvector, u, x, phiu = TRUE, finitelik = FALSE)
Arguments
x
vector of sample data
phiu
probability of being above threshold (0, 1) or logical, see Details in
help for fnormgpd
useq
vector of thresholds (or scalar) to be considered in profile likelihood or
NULL for no profile likelihood
fixedu
logical, should threshold be fixed (at either scalar value in useq,
or estimated from maximum of profile likelihood evaluated at
sequence of thresholds in useq)
pvector
vector of initial values of parameters or NULL for default
values, see below
std.err
logical, should standard errors be calculated
method
optimisation method (see optim)
control
optimisation control list (see optim)
finitelik
logical, should log-likelihood return finite value for invalid parameters
...
optional inputs passed to optim
wshape
scalar Weibull shape (positive)
wscale
scalar Weibull scale (positive)
u
scalar threshold value
sigmau
scalar scale parameter (positive)
xi
scalar shape parameter
log
logical, if TRUE then log-likelihood rather than likelihood is output
Details
The extreme value mixture model with Weibull bulk and GPD tail is
fitted to the entire dataset using maximum likelihood estimation. The estimated
parameters, variance-covariance matrix and their standard errors are automatically
output.
See help for fnormgpd for details, type help fnormgpd.
Only the different features are outlined below for brevity.
The full parameter vector is
(wshape, wscale, u, sigmau, xi) if threshold is also estimated and
(wshape, wscale, sigmau, xi) for profile likelihood or fixed threshold approach.
Non-positive data are ignored (f(0) is infinite for wshape<1).
Value
Log-likelihood is given by lweibullgpd and it's
wrappers for negative log-likelihood from nlweibullgpd
and nluweibullgpd. Profile likelihood for single
threshold given by profluweibullgpd. Fitting function
fweibullgpd returns a simple list with the
following elements
call: optim call
x: data vector x
init: pvector
fixedu: fixed threshold, logical
useq: threshold vector for profile likelihood or scalar for fixed threshold
nllhuseq: profile negative log-likelihood at each threshold in useq
optim: complete optim output
mle: vector of MLE of parameters
cov: variance-covariance matrix of MLE of parameters
se: vector of standard errors of MLE of parameters
rate: phiu to be consistent with evd
nllh: minimum negative log-likelihood
n: total sample size
wshape: MLE of Weibull shape
wscale: MLE of Weibull scale
u: threshold (fixed or MLE)
sigmau: MLE of GPD scale
xi: MLE of GPD shape
phiu: MLE of tail fraction (bulk model or parameterised approach)
se.phiu: standard error of MLE of tail fraction
Acknowledgments
See Acknowledgments in
fnormgpd, type help fnormgpd.
Note
When pvector=NULL then the initial values are:
MLE of Weibull parameters assuming entire population is Weibull; and
threshold 90% quantile (not relevant for profile likelihood for threshold or fixed threshold approaches);
MLE of GPD parameters above threshold.
Author(s)
Yang Hu and Carl Scarrott carl.scarrott@canterbury.ac.nz
References
http://www.math.canterbury.ac.nz/~c.scarrott/evmix
http://en.wikipedia.org/wiki/Weibull_distribution
http://en.wikipedia.org/wiki/Generalized_Pareto_distribution
Scarrott, C.J. and MacDonald, A. (2012). A review of extreme value
threshold estimation and uncertainty quantification. REVSTAT - Statistical
Journal 10(1), 33-59. Available from http://www.ine.pt/revstat/pdf/rs120102.pdf
Hu, Y. (2013). Extreme value mixture modelling: An R package and simulation study.
MSc (Hons) thesis, University of Canterbury, New Zealand.
http://ir.canterbury.ac.nz/simple-search?query=extreme&submit=Go
Behrens, C.N., Lopes, H.F. and Gamerman, D. (2004). Bayesian analysis of extreme
events with threshold estimation. Statistical Modelling. 4(3), 227-244.
See Also
Other weibullgpd: fitmweibullgpd,
fweibullgpdcon,
itmweibullgpd, weibullgpdcon,
weibullgpd
Other weibullgpdcon: fweibullgpdcon,
itmweibullgpd, weibullgpdcon,
weibullgpd
Other itmweibullgpd: fitmweibullgpd,
fweibullgpdcon,
itmweibullgpd, weibullgpdcon,
weibullgpd
Other fweibullgpd: weibullgpd
Examples
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## Not run:
set.seed(1)
par(mfrow = c(2, 1))
x = rweibull(1000, shape = 2)
xx = seq(-0.1, 4, 0.01)
y = dweibull(xx, shape = 2)
# Bulk model based tail fraction
fit = fweibullgpd(x)
hist(x, breaks = 100, freq = FALSE, xlim = c(-0.1, 4))
lines(xx, y)
with(fit, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi), col="red"))
abline(v = fit$u, col = "red")
# Parameterised tail fraction
fit2 = fweibullgpd(x, phiu = FALSE)
with(fit2, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi, phiu), col="blue"))
abline(v = fit2$u, col = "blue")
legend("topright", c("True Density","Bulk Tail Fraction","Parameterised Tail Fraction"),
col=c("black", "red", "blue"), lty = 1)
# Profile likelihood for initial value of threshold and fixed threshold approach
fitu = fweibullgpd(x, useq = seq(0.5, 2, length = 20))
fitfix = fweibullgpd(x, useq = seq(0.5, 2, length = 20), fixedu = TRUE)
hist(x, breaks = 100, freq = FALSE, xlim = c(-0.1, 4))
lines(xx, y)
with(fit, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi), col="red"))
abline(v = fit$u, col = "red")
with(fitu, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi), col="purple"))
abline(v = fitu$u, col = "purple")
with(fitfix, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi), col="darkgreen"))
abline(v = fitfix$u, col = "darkgreen")
legend("topright", c("True Density","Default initial value (90% quantile)",
"Prof. lik. for initial value", "Prof. lik. for fixed threshold"),
col=c("black", "red", "purple", "darkgreen"), lty = 1)
## End(Not run)
evmix documentation built on Sept. 3, 2019, 5:07 p.m.
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Description Usage Arguments Details Value Acknowledgments Note Author(s) References See Also Examples
Description
Maximum likelihood estimation for fitting the extreme value mixture model with Weibull for bulk distribution upto the threshold and conditional GPD above threshold. With options for profile likelihood estimation for threshold and fixed threshold approach.
Usage
1 2 3 4 5 6 7 8 9 10 11 12 13 14 | fweibullgpd(x, phiu = TRUE, useq = NULL, fixedu = FALSE,
pvector = NULL, std.err = TRUE, method = "BFGS",
control = list(maxit = 10000), finitelik = TRUE, ...)
lweibullgpd(x, wshape = 1, wscale = 1, u = qweibull(0.9, wshape,
wscale), sigmau = sqrt(wscale^2 * gamma(1 + 2/wshape) - (wscale *
gamma(1 + 1/wshape))^2), xi = 0, phiu = TRUE, log = TRUE)
nlweibullgpd(pvector, x, phiu = TRUE, finitelik = FALSE)
profluweibullgpd(u, pvector, x, phiu = TRUE, method = "BFGS",
control = list(maxit = 10000), finitelik = TRUE, ...)
nluweibullgpd(pvector, u, x, phiu = TRUE, finitelik = FALSE)
|
Arguments
x |
vector of sample data |
phiu |
probability of being above threshold (0, 1) or logical, see Details in
help for |
useq |
vector of thresholds (or scalar) to be considered in profile likelihood or
|
fixedu |
logical, should threshold be fixed (at either scalar value in |
pvector |
vector of initial values of parameters or |
std.err |
logical, should standard errors be calculated |
method |
optimisation method (see |
control |
optimisation control list (see |
finitelik |
logical, should log-likelihood return finite value for invalid parameters |
... |
optional inputs passed to |
wshape |
scalar Weibull shape (positive) |
wscale |
scalar Weibull scale (positive) |
u |
scalar threshold value |
sigmau |
scalar scale parameter (positive) |
xi |
scalar shape parameter |
log |
logical, if |
Details
The extreme value mixture model with Weibull bulk and GPD tail is fitted to the entire dataset using maximum likelihood estimation. The estimated parameters, variance-covariance matrix and their standard errors are automatically output.
See help for fnormgpd for details, type help fnormgpd.
Only the different features are outlined below for brevity.
The full parameter vector is
(wshape, wscale, u, sigmau, xi) if threshold is also estimated and
(wshape, wscale, sigmau, xi) for profile likelihood or fixed threshold approach.
Non-positive data are ignored (f(0) is infinite for wshape<1).
Value
Log-likelihood is given by lweibullgpd and it's
wrappers for negative log-likelihood from nlweibullgpd
and nluweibullgpd. Profile likelihood for single
threshold given by profluweibullgpd. Fitting function
fweibullgpd returns a simple list with the
following elements
call: | optim call |
x: | data vector x |
init: | pvector |
fixedu: | fixed threshold, logical |
useq: | threshold vector for profile likelihood or scalar for fixed threshold |
nllhuseq: | profile negative log-likelihood at each threshold in useq |
optim: | complete optim output |
mle: | vector of MLE of parameters |
cov: | variance-covariance matrix of MLE of parameters |
se: | vector of standard errors of MLE of parameters |
rate: | phiu to be consistent with evd |
nllh: | minimum negative log-likelihood |
n: | total sample size |
wshape: | MLE of Weibull shape |
wscale: | MLE of Weibull scale |
u: | threshold (fixed or MLE) |
sigmau: | MLE of GPD scale |
xi: | MLE of GPD shape |
phiu: | MLE of tail fraction (bulk model or parameterised approach) |
se.phiu: | standard error of MLE of tail fraction |
Acknowledgments
See Acknowledgments in
fnormgpd, type help fnormgpd.
Note
When pvector=NULL then the initial values are:
MLE of Weibull parameters assuming entire population is Weibull; and
threshold 90% quantile (not relevant for profile likelihood for threshold or fixed threshold approaches);
MLE of GPD parameters above threshold.
Author(s)
Yang Hu and Carl Scarrott carl.scarrott@canterbury.ac.nz
References
http://www.math.canterbury.ac.nz/~c.scarrott/evmix
http://en.wikipedia.org/wiki/Weibull_distribution
http://en.wikipedia.org/wiki/Generalized_Pareto_distribution
Scarrott, C.J. and MacDonald, A. (2012). A review of extreme value threshold estimation and uncertainty quantification. REVSTAT - Statistical Journal 10(1), 33-59. Available from http://www.ine.pt/revstat/pdf/rs120102.pdf
Hu, Y. (2013). Extreme value mixture modelling: An R package and simulation study. MSc (Hons) thesis, University of Canterbury, New Zealand. http://ir.canterbury.ac.nz/simple-search?query=extreme&submit=Go
Behrens, C.N., Lopes, H.F. and Gamerman, D. (2004). Bayesian analysis of extreme events with threshold estimation. Statistical Modelling. 4(3), 227-244.
See Also
Other weibullgpd: fitmweibullgpd,
fweibullgpdcon,
itmweibullgpd, weibullgpdcon,
weibullgpd
Other weibullgpdcon: fweibullgpdcon,
itmweibullgpd, weibullgpdcon,
weibullgpd
Other itmweibullgpd: fitmweibullgpd,
fweibullgpdcon,
itmweibullgpd, weibullgpdcon,
weibullgpd
Other fweibullgpd: weibullgpd
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 | ## Not run:
set.seed(1)
par(mfrow = c(2, 1))
x = rweibull(1000, shape = 2)
xx = seq(-0.1, 4, 0.01)
y = dweibull(xx, shape = 2)
# Bulk model based tail fraction
fit = fweibullgpd(x)
hist(x, breaks = 100, freq = FALSE, xlim = c(-0.1, 4))
lines(xx, y)
with(fit, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi), col="red"))
abline(v = fit$u, col = "red")
# Parameterised tail fraction
fit2 = fweibullgpd(x, phiu = FALSE)
with(fit2, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi, phiu), col="blue"))
abline(v = fit2$u, col = "blue")
legend("topright", c("True Density","Bulk Tail Fraction","Parameterised Tail Fraction"),
col=c("black", "red", "blue"), lty = 1)
# Profile likelihood for initial value of threshold and fixed threshold approach
fitu = fweibullgpd(x, useq = seq(0.5, 2, length = 20))
fitfix = fweibullgpd(x, useq = seq(0.5, 2, length = 20), fixedu = TRUE)
hist(x, breaks = 100, freq = FALSE, xlim = c(-0.1, 4))
lines(xx, y)
with(fit, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi), col="red"))
abline(v = fit$u, col = "red")
with(fitu, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi), col="purple"))
abline(v = fitu$u, col = "purple")
with(fitfix, lines(xx, dweibullgpd(xx, wshape, wscale, u, sigmau, xi), col="darkgreen"))
abline(v = fitfix$u, col = "darkgreen")
legend("topright", c("True Density","Default initial value (90% quantile)",
"Prof. lik. for initial value", "Prof. lik. for fixed threshold"),
col=c("black", "red", "purple", "darkgreen"), lty = 1)
## End(Not run)
|
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