Appalachia: Annual maximum streamflow in central Appalachia
In armstrtw/rrcov: Scalable Robust Estimators with High Breakdown Point
Description
Usage
Format
Details
Source
References
Examples
Description
The data on annual maximum streamflow at 104 gaging stations
in the central Appalachia region of the United States contains
the sample L-moments ratios (L-CV, L-skewness and L-kurtosis) as
used by Hosking and Wallis (1997) to illustrate regional
freqency analysis (RFA).
Usage
1
Format
A data frame with 104 observations on the following 3 variables:
L-CVL-coefficient of variation
L-skewnessL-coefficient of skewness
L-kurtosisL-coefficient of kurtosis
Details
The sample L-moment ratios (L-CV, L-skewness and L-kurtosis) of a
site are regarded as a point in three dimensional space.
Source
Hosking, J. R. M. and J. R. Wallis (1997), Regional Frequency Analysis: An
Approach Based on L-moments. Cambridge University Press, p.175–185
References
Neykov, N.M., Neytchev, P.N., Van Gelder, P.H.A.J.M. and Todorov V. (2007),
Robust detection of discordant sites in regional frequency analysis,
Water Resources Research, 43, W06417,
doi:10.1029/2006WR005322,
http://www.agu.org/pubs/crossref/2007/2006WR005322.shtml
Examples
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data(Appalachia)
# plot a matrix of scatterplots
pairs(Appalachia,
main="Appalachia data set",
pch=21,
bg=c("red", "green3", "blue"))
mcd<-CovMcd(Appalachia)
mcd
plot(mcd, which="dist", class=TRUE)
plot(mcd, which="dd", class=TRUE)
## identify the discordant sites using robust distances and compare
## to the classical ones
mcd <- CovMcd(Appalachia)
rd <- sqrt(getDistance(mcd))
ccov <- CovClassic(Appalachia)
cd <- sqrt(getDistance(ccov))
r.out <- which(rd > sqrt(qchisq(0.975,3)))
c.out <- which(cd > sqrt(qchisq(0.975,3)))
cat("Robust: ", length(r.out), " outliers: ", r.out,"\n")
cat("Classical: ", length(c.out), " outliers: ", c.out,"\n")
armstrtw/rrcov documentation built on May 10, 2019, 1:43 p.m.
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Description Usage Format Details Source References Examples
Description
The data on annual maximum streamflow at 104 gaging stations in the central Appalachia region of the United States contains the sample L-moments ratios (L-CV, L-skewness and L-kurtosis) as used by Hosking and Wallis (1997) to illustrate regional freqency analysis (RFA).
Usage
1 |
Format
A data frame with 104 observations on the following 3 variables:
L-CVL-coefficient of variation
L-skewnessL-coefficient of skewness
L-kurtosisL-coefficient of kurtosis
Details
The sample L-moment ratios (L-CV, L-skewness and L-kurtosis) of a site are regarded as a point in three dimensional space.
Source
Hosking, J. R. M. and J. R. Wallis (1997), Regional Frequency Analysis: An Approach Based on L-moments. Cambridge University Press, p.175–185
References
Neykov, N.M., Neytchev, P.N., Van Gelder, P.H.A.J.M. and Todorov V. (2007), Robust detection of discordant sites in regional frequency analysis, Water Resources Research, 43, W06417, doi:10.1029/2006WR005322, http://www.agu.org/pubs/crossref/2007/2006WR005322.shtml
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 | data(Appalachia)
# plot a matrix of scatterplots
pairs(Appalachia,
main="Appalachia data set",
pch=21,
bg=c("red", "green3", "blue"))
mcd<-CovMcd(Appalachia)
mcd
plot(mcd, which="dist", class=TRUE)
plot(mcd, which="dd", class=TRUE)
## identify the discordant sites using robust distances and compare
## to the classical ones
mcd <- CovMcd(Appalachia)
rd <- sqrt(getDistance(mcd))
ccov <- CovClassic(Appalachia)
cd <- sqrt(getDistance(ccov))
r.out <- which(rd > sqrt(qchisq(0.975,3)))
c.out <- which(cd > sqrt(qchisq(0.975,3)))
cat("Robust: ", length(r.out), " outliers: ", r.out,"\n")
cat("Classical: ", length(c.out), " outliers: ", c.out,"\n")
|
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