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lmomco (version 2.2.5)

tlmrpe3: Compute Select TL-moment ratios of the Pearson Type III

Description

This function computes select TL-moment ratios of the Pearson Type III distribution for defaults of $\xi = 0$ and $\beta = 1$. This function can be useful for plotting the trajectory of the distribution on TL-moment ratio diagrams of $\tau^{(t_1,t_2)}_2$, $\tau^{(t_1,t_2)}_3$, $\tau^{(t_1,t_2)}_4$, $\tau^{(t_1,t_2)}_5$, and $\tau^{(t_1,t_2)}_6$. In reality, $\tau^{(t_1,t_2)}_2$ is dependent on the values for $\xi$ and $\alpha$. If the message 
Error in integrate(XofF, 0, 1) : the integral is probably divergent
occurs then careful adjustment of the shape parameter $\beta$ parameter range is very likely required. Remember that TL-moments with nonzero trimming permit computation of TL-moments into parameter ranges beyond those recognized for the usual (untrimmed) L-moments. The function uses numerical integration of the quantile function of the distribution through the theoTLmoms function.

Usage

tlmrpe3(trim=NULL, leftrim=NULL, rightrim=NULL, xi=0, beta=1, abeg=-.99, aend=0.99, by=.1)

Arguments

trim
Level of symmetrical trimming to use in the computations. Although NULL in the argument list, the default is 0---the usual L-moment ratios are returned.
leftrim
Level of trimming of the left-tail of the sample.
rightrim
Level of trimming of the right-tail of the sample.
xi
Location parameter of the distribution.
beta
Scale parameter of the distribution.
abeg
The beginning $\alpha$ value of the distribution.
aend
The ending $\alpha$ value of the distribution.
by
The increment for the seq() between abeg and aend.

Value

An R list is returned.

See Also

quape3, theoTLmoms

Examples

Run this code
## Not run: 
# tlmrpe3(leftrim=2, rightrim=4, xi=0, beta=2)
# tlmrpe3(leftrim=2, rightrim=4, xi=100, beta=20) # another slow example
#   # Plot and L-moment ratio diagram of Tau3 and Tau4
#   # with exclusive focus on the PE3 distribution.
#   plotlmrdia(lmrdia(), autolegend=TRUE, xleg=-.1, yleg=.6,
#              xlim=c(-.8, .7), ylim=c(-.1, .8),
#              nolimits=TRUE, nogev=TRUE, nogpa=TRUE, noglo=TRUE,
#              nogno=TRUE, nocau=TRUE, noexp=TRUE, nonor=TRUE,
#              nogum=TRUE, noray=TRUE, nouni=TRUE)
# 
#   # Compute the TL-moment ratios for trimming of one
#   # value on the left and four on the right. Notice the
#   # expansion of the alpha parameter space from
#   # -1 < a < -1 to something larger based on manual
#   # adjustments until blue curve encompassed the plot.
#   J <- tlmrpe3(abeg=-15, aend=6, leftrim=1, rightrim=4)
#   lines(J$tau3, J$tau4, lwd=2, col=2) # RED CURVE
# 
#   # Compute the TL-moment ratios for trimming of four
#   # values on the left and one on the right.
#   J <- tlmrpe3(abeg=-6, aend=10, leftrim=4, rightrim=1)
#   lines(J$tau3, J$tau4, lwd=2, col=4) # BLUE CURVE
# 
#   # The abeg and aend can be manually changed to see how
#   # the resultant curve expands or contracts on the
#   # extent of the L-moment ratio diagram.
# ## End(Not run)
## Not run: 
#   # Following up, let us plot the two quantile functions
#   LM  <- vec2par(c(0,1,0.99), type='pe3', paracheck=FALSE)
#   TLM <- vec2par(c(0,1,3.00), type='pe3', paracheck=FALSE)
#   F <- nonexceeds()
#   plot(qnorm(F),  quape3(F, LM), type="l")
#   lines(qnorm(F), quape3(F, TLM, paracheck=FALSE), col=2)
#   # Notice how the TLM parameterization runs off towards
#   # infinity much much earlier than the conventional
#   # near limits of the PE3.
# ## End(Not run)

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