KakizawaB3 {bde} | R Documentation |
Class "KakizawaB3"
Description
This class deals with B3 approximation to kernel density estimation as described in Kakizawa (2004). This is a Berstein polynomial approximation of the density function which uses BoundedDensity objects instead of a polynomial function. By contrast to the original Kakizawa's approach where only boundary kernels are used, here, any BoundedDensity object is allowed. Using this estimator, the methods implemented in the class can be used to compute densities, values of the distribution function, quantiles, sample the distribution and obtain graphical representations.
Objects from the Class
Objects can be created by using the generator function kakizawaB3
.
Slots
dataPointsCache
:a numeric vector containing points within the
[lower.limit,upper.limit]
intervaldensityCache
:a numeric vector containing the density for each point in
dataPointsCache
distributionCache
:a numeric vector used to cache the values of the distribution function. This slot is included to improve the performance of the methods when multiple calculations of the distribution function are used
dataPoints
:a numeric vector containing data samples within the
[lower.limit,upper.limit]
interval. These data samples are used to obtain the kernel estimatordensityEstimator
:a BoundedDensity object used to estimate the density
lower.limit
:a numeric value for the lower limit of the bounded interval for the data
upper.limit
:a numeric value for the upper limit of the bounded interval for the data
Methods
- density
See
"density"
for details- distribution
See
"distribution"
for details- quantile
See
"quantile"
for details- rsample
See
"rsample"
for details- plot
See
"plot"
for details- getdataPointsCache
See
"getdataPointsCache"
for details- getdensityCache
See
"getdensityCache"
for details- getdistributionCache
See
"getdistributionCache"
for details- getdataPoints
See
"getdataPoints"
for details- getm
See
"getm"
for details- getdensityEstimator
See
"getdensityEstimator"
for details
Author(s)
Guzman Santafe, Borja Calvo and Aritz Perez
References
Kakizawa, Y. (2004). Bernstein polynomial probability density estimation. Journal of Nonparametric Statistics, 16(5), 709-729.
Examples
# create the model
# we use a MicroBetaChen99Kernel is used as estimator y KakizawaB1 approximation
est <- microBetaChen99Kernel(dataPoints = tuna.r, b = 0.01, modified = FALSE)
model <- kakizawaB3(dataPoints = tuna.r, m = 25, estimator = est)
# examples of usual functions
density(model,0.5)
distribution(model,0.5,discreteApproximation=FALSE)
# graphical representation
hist(tuna.r,freq=FALSE,main="Tuna Data")
lines(model, col="red",lwd=2)
# graphical representation using ggplot2
graph <- gplot(model, show=TRUE, includePoints=TRUE)