Quant2o: Second order refined Weissman estimator of extreme quantiles...
In TReynkens/ReIns: Functions from "Reinsurance: Actuarial and Statistical Aspects"
Quant.2oQV R Documentation
Second order refined Weissman estimator of extreme quantiles (QV)
Description
Compute second order refined Weissman estimator of extreme quantiles Q(1-p) using the quantile view.
Usage
Quant.2oQV(data, gamma, b, beta, p, plot = FALSE, add = FALSE,
main = "Estimates of extreme quantile", ...)
Weissman.q.2oQV(data, gamma, b, beta, p, plot = FALSE, add = FALSE,
main = "Estimates of extreme quantile", ...)
Arguments
data
Vector of n observations.
gamma
Vector of n-1 estimates for the EVI obtained from Hill.2oQV.
b
Vector of n-1 estimates for b obtained from Hill.2oQV.
beta
Vector of n-1 estimates for \beta obtained from Hill.2oQV.
p
The exceedance probability of the quantile (we estimate Q(1-p) for p small).
plot
Logical indicating if the estimates should be plotted as a function of k, default is FALSE.
add
Logical indicating if the estimates should be added to an existing plot, default is FALSE.
main
Title for the plot, default is "Estimates of extreme quantile".
...
Additional arguments for the plot function, see plot for more details.
Details
See Section 4.2.1 of Albrecher et al. (2017) for more details.
Weissman.q.2oQV is the same function but with a different name for compatibility with the old S-Plus code.
Value
A list with following components:
k
Vector of the values of the tail parameter k.
Q
Vector of the corresponding quantile estimates.
p
The used exceedance probability.
Author(s)
Tom Reynkens based on S-Plus code from Yuri Goegebeur.
References
Albrecher, H., Beirlant, J. and Teugels, J. (2017). Reinsurance: Actuarial and Statistical Aspects, Wiley, Chichester.
Beirlant J., Goegebeur Y., Segers, J. and Teugels, J. (2004). Statistics of Extremes: Theory and Applications, Wiley Series in Probability, Wiley, Chichester.
See Also
Quant, Hill.2oQV
Examples
data(soa)
# Look at last 500 observations of SOA data
SOAdata <- sort(soa$size)[length(soa$size)-(0:499)]
# Hill estimator
H <- Hill(SOAdata)
# Bias-reduced estimator (QV)
H_QV <- Hill.2oQV(SOAdata)
# Exceedance probability
p <- 10^(-5)
# Weissman estimator
Quant(SOAdata, gamma=H$gamma, p=p, plot=TRUE)
# Second order Weissman estimator (QV)
Quant.2oQV(SOAdata, gamma=H_QV$gamma, beta=H_QV$beta, b=H_QV$b, p=p,
add=TRUE, lty=2)
TReynkens/ReIns documentation built on Nov. 9, 2023, 1:29 p.m.
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| Quant.2oQV | R Documentation |
Second order refined Weissman estimator of extreme quantiles (QV)
Description
Compute second order refined Weissman estimator of extreme quantiles Q(1-p) using the quantile view.
Usage
Quant.2oQV(data, gamma, b, beta, p, plot = FALSE, add = FALSE,
main = "Estimates of extreme quantile", ...)
Weissman.q.2oQV(data, gamma, b, beta, p, plot = FALSE, add = FALSE,
main = "Estimates of extreme quantile", ...)
Arguments
data |
Vector of |
gamma |
Vector of |
b |
Vector of |
beta |
Vector of |
p |
The exceedance probability of the quantile (we estimate |
plot |
Logical indicating if the estimates should be plotted as a function of |
add |
Logical indicating if the estimates should be added to an existing plot, default is |
main |
Title for the plot, default is |
... |
Additional arguments for the |
Details
See Section 4.2.1 of Albrecher et al. (2017) for more details.
Weissman.q.2oQV is the same function but with a different name for compatibility with the old S-Plus code.
Value
A list with following components:
k |
Vector of the values of the tail parameter |
Q |
Vector of the corresponding quantile estimates. |
p |
The used exceedance probability. |
Author(s)
Tom Reynkens based on S-Plus code from Yuri Goegebeur.
References
Albrecher, H., Beirlant, J. and Teugels, J. (2017). Reinsurance: Actuarial and Statistical Aspects, Wiley, Chichester.
Beirlant J., Goegebeur Y., Segers, J. and Teugels, J. (2004). Statistics of Extremes: Theory and Applications, Wiley Series in Probability, Wiley, Chichester.
See Also
Quant, Hill.2oQV
Examples
data(soa)
# Look at last 500 observations of SOA data
SOAdata <- sort(soa$size)[length(soa$size)-(0:499)]
# Hill estimator
H <- Hill(SOAdata)
# Bias-reduced estimator (QV)
H_QV <- Hill.2oQV(SOAdata)
# Exceedance probability
p <- 10^(-5)
# Weissman estimator
Quant(SOAdata, gamma=H$gamma, p=p, plot=TRUE)
# Second order Weissman estimator (QV)
Quant.2oQV(SOAdata, gamma=H_QV$gamma, beta=H_QV$beta, b=H_QV$b, p=p,
add=TRUE, lty=2)
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