| vkgmss.residuals.cdf.estim {cvmgof} | R Documentation |
Kernel estimation of the error distribution
Description
This function computes the kernel (Nadaraya-Watson) estimation of the error distribution.
Usage
vkgmss.residuals.cdf.estim(u, data.X, data.Y, bandwidth,
kernel.function = kernel.function.epan)Arguments
u |
a numeric vector. |
data.X |
a numeric data vector used to obtain the nonparametric estimator of the error distribution. |
data.Y |
a numeric data vector used to obtain the nonparametric estimator of the error distribution. |
bandwidth |
bandwidth used to obtain the nonparametric estimator of the error distribution. |
kernel.function |
kernel function used to obtain the nonparametric estimator of the error distribution. Default option is "kernel.function.epan" which corresponds to the Epanechnikov kernel function. |
Details
Inappropriate bandwidth or u choices can produce "NaN" values in error distribution estimates.
Author(s)
Romain Azais, Sandie Ferrigno and Marie-Jose Martinez
References
I. Van Keilegom, W. Gonzalez Manteiga, and C. Sanchez Sellero. Goodness-of-fit tests in parametric regression based on the estimation of the error distribution. Test, 17, 401:415, 2008.
R. Azais, S. Ferrigno and M-J Martinez. cvmgof: An R package for Cramer-von Mises goodness-of-fit tests in regression models. Submitted. January 2021.hal-03101612
Examples
# Uncomment the following code block
#
# set.seed(1)
#
# # Data simulation
# n = 25 # Dataset size
# data.X = runif(n,min=0,max=5) # X
# data.Y = 0.2*data.X^2-data.X+2+rnorm(n,mean=0,sd=0.3) # Y
#
# ########################################################################
#
# # Estimation of residuals cdf
#
# bandwidth = 0.75 # Here, the bandwidth is arbitrarily fixed
#
# egrid = seq(-5,5,by=0.1)
# res.cdf = vkgmss.residuals.cdf.estim(egrid,data.X,data.Y,0.5)
#
# plot(egrid,res.cdf , type='l',xlab='e',ylab='CDF(e)')