Description Usage Arguments Details Value Author(s) References See Also Examples
Kurtosis and steepness coefficient for the BMT distribution with
p3
and p4
tails weights (κ_l and κ_r)
or asymmetry-steepness parameters (ζ and ξ) and p1
and p2
domain (minimum and maximum) or location-scale (mean and
standard deviation) parameters.
1 2 3 |
p3, p4 |
tails weights (κ_l and κ_r) or asymmetry-steepness (ζ and ξ) parameters of the BMT distribution. |
type.p.3.4 |
type of parametrization asociated to p3 and p4. "t w" means tails weights parametrization (default) and "a-s" means asymmetry-steepness parametrization. |
p1, p2 |
domain (minimum and maximum) or location-scale (mean and standard deviation) parameters of the BMT ditribution. |
type.p.1.2 |
type of parametrization asociated to p1 and p2. "c-d" means domain parametrization (default) and "l-s" means location-scale parametrization. |
See References.
BMTkurt
gives the Pearson's kurtosis and BMTsteep
the
proposed steepness coefficient for the BMT distribution.
The arguments are recycled to the length of the result. Only the first
elements of type.p.3.4
and type.p.1.2
are used.
If type.p.3.4 == "t w"
, p3 < 0
and p3 > 1
are errors
and return NaN
.
If type.p.3.4 == "a-s"
, p3 < -1
and p3 > 1
are errors
and return NaN
.
p4 < 0
and p4 > 1
are errors and return NaN
.
If type.p.1.2 == "c-d"
, p1 >= p2
is an error and returns
NaN
.
If type.p.1.2 == "l-s"
, p2 <= 0
is an error and returns
NaN
.
Camilo Jose Torres-Jimenez [aut,cre] cjtorresj@unal.edu.co
Torres-Jimenez, C. J. and Montenegro-Diaz, A. M. (2017, September), An alternative to continuous univariate distributions supported on a bounded interval: The BMT distribution. ArXiv e-prints.
Torres-Jimenez, C. J. (2018), The BMT Item Response Theory model: A new skewed distribution family with bounded domain and an IRT model based on it, PhD thesis, Doctorado en ciencias - Estadistica, Universidad Nacional de Colombia, Sede Bogota.
BMTcentral
, BMTdispersion
,
BMTskewness
, BMTmoments
for other descriptive
measures or moments.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 | # BMT on [0,1] with left tail weight equal to 0.25 and
# right tail weight equal to 0.75
BMTkurt(0.25, 0.75, "t w")
BMTsteep(0.25, 0.75, "t w")
# BMT on [0,1] with asymmetry coefficient equal to 0.5 and
# steepness coefficient equal to 0.75
BMTkurt(0.5, 0.5, "a-s")
BMTsteep(0.5, 0.5, "a-s")
# domain or location-scale parameters do not affect
# the skewness and the asymmetry coefficient
# BMT on [-1.783489,3.312195] with
# left tail weight equal to 0.25 and
# right tail weight equal to 0.75
BMTkurt(0.25, 0.75, "t w", -1.783489, 3.312195, "c-d")
BMTsteep(0.25, 0.75, "t w", -1.783489, 3.312195, "c-d")
# BMT with mean equal to 0, standard deviation equal to 1,
# asymmetry coefficient equal to 0.5 and
# steepness coefficient equal to 0.75
BMTkurt(0.5, 0.5, "a-s", 0, 1, "l-s")
BMTsteep(0.5, 0.5, "a-s", 0, 1, "l-s")
|
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