pp.median: Quantile Function of the Ranks of Plotting Positions
In lmomco: L-Moments, Censored L-Moments, Trimmed L-Moments, L-Comoments, and Many Distributions
pp.median R Documentation
Quantile Function of the Ranks of Plotting Positions
Description
The median of a plotting position. The median is pp^\star_r = IIB(0.5, r, n+1-r). IIB is the “inverse of the incomplete beta function” or the quantile function of the Beta distribution as provided in R by qbeta(f, a, b). Readers might consult Gilchrist (2011, chapter 12) and Karian and Dudewicz (2011, p. 510). The pp'_r are known in some fields as “mean rankit” and pp^\star_r as “median rankit.”
Usage
pp.median(x)
Arguments
x
A real value vector. The ranks and the length of the vector are computed within the function.
Value
An R vector is returned.
Note
The function internally calls pp.f (see Note in for that function).
Author(s)
W.H. Asquith
References
Gilchrist, W.G., 2000, Statistical modelling with quantile functions: Chapman and Hall/CRC, Boca Raton.
Karian, Z.A., and Dudewicz, E.J., 2011, Handbook of fitting statistical distributions with R: Boca Raton, FL, CRC Press.
See Also
pp, pp.f
Examples
## Not run:
X <- rexp(10)*rexp(10)
means <- pp(X, sort=FALSE)
median <- pp.median(X)
supposed.median <- pp(X, a=0.3175, sort=FALSE)
lmr <- lmoms(X)
par <- parwak(lmr)
FF <- nonexceeds()
plot(FF, qlmomco(FF, par), type="l", log="y")
points(means, X)
points(median, X, col=2)
points(supposed.median, X, pch=16, col=2, cex=0.5)
# The plot shows that the median and supposed.median by the plotting-position
# formula are effectively equivalent. Thus, the partial application it seems
# that a=0.3175 would be good enough in lieu of the complexity of the
# quantile function of the Beta distribution.
## End(Not run)
lmomco documentation built on Aug. 30, 2023, 5:10 p.m.
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| pp.median | R Documentation |
Quantile Function of the Ranks of Plotting Positions
Description
The median of a plotting position. The median is pp^\star_r = IIB(0.5, r, n+1-r). IIB is the “inverse of the incomplete beta function” or the quantile function of the Beta distribution as provided in R by qbeta(f, a, b). Readers might consult Gilchrist (2011, chapter 12) and Karian and Dudewicz (2011, p. 510). The pp'_r are known in some fields as “mean rankit” and pp^\star_r as “median rankit.”
Usage
pp.median(x)
Arguments
x |
A real value vector. The ranks and the length of the vector are computed within the function. |
Value
An R vector is returned.
Note
The function internally calls pp.f (see Note in for that function).
Author(s)
W.H. Asquith
References
Gilchrist, W.G., 2000, Statistical modelling with quantile functions: Chapman and Hall/CRC, Boca Raton.
Karian, Z.A., and Dudewicz, E.J., 2011, Handbook of fitting statistical distributions with R: Boca Raton, FL, CRC Press.
See Also
pp, pp.f
Examples
## Not run:
X <- rexp(10)*rexp(10)
means <- pp(X, sort=FALSE)
median <- pp.median(X)
supposed.median <- pp(X, a=0.3175, sort=FALSE)
lmr <- lmoms(X)
par <- parwak(lmr)
FF <- nonexceeds()
plot(FF, qlmomco(FF, par), type="l", log="y")
points(means, X)
points(median, X, col=2)
points(supposed.median, X, pch=16, col=2, cex=0.5)
# The plot shows that the median and supposed.median by the plotting-position
# formula are effectively equivalent. Thus, the partial application it seems
# that a=0.3175 would be good enough in lieu of the complexity of the
# quantile function of the Beta distribution.
## End(Not run)
R Package Documentation
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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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