Hscv(x, nstage=2, pre="sphere", pilot, Hstart, binned=FALSE,
bgridsize, amise=FALSE, deriv.order=0, verbose=FALSE, optim.fun="nlm")
Hscv.diag(x, nstage=2, pre="scale", pilot, Hstart, binned=FALSE,
bgridsize, amise=FALSE, deriv.order=0, verbose=FALSE, optim.fun="nlm")
hscv(x, nstage=2, binned=TRUE, bgridsize, plot=FALSE)pre.scale, "sphere" = pre.sphereamise=TRUE then the minimal scaled SCV value is returned too.hscv is the univariate SCV
selector of Jones, Marron & Park (1991). Hscv is a
multivariate generalisation of this, see Duong & Hazelton (2005).
Use Hscv for full bandwidth matrices and Hscv.diag
for diagonal bandwidth matrices.
The default pilot is "samse" for d=2,r=0, and
"dscalar" otherwise. For SAMSE pilot bandwidths, see Duong &
Hazelton (2005). Unconstrained and higher order derivative pilot
bandwidths are from Chacon & Duong (2011). For d=1, the selector hscv is not always stable for large
sample sizes with binning.
Examine the plot from hscv(, plot=TRUE) to
determine the appropriate smoothness of the SCV function. Any
non-smoothness is due to the discretised nature of binned estimation.
For details about the advanced options for binned, Hstart,
see Hpi.
Chacon, J.E. & Duong, T. (2014) Efficient recursive algorithms for functionals based on higher order derivatives of the multivariate Gaussian density. Statistics & Computing. 25, 959--974. Duong, T. & Hazelton, M.L. (2005) Cross-validation bandwidth matrices for multivariate kernel density estimation. Scandinavian Journal of Statistics. 32, 485-506.
Jones, M.C., Marron, J.S. & Park, B.U. (1991) A simple root n bandwidth selector. Annals of Statistics. 19, 1919-1932.
Hbcv, Hlscv, Hpidata(unicef)
Hscv(unicef)
hscv(unicef[,1])Run the code above in your browser using DataLab