Fits a logspline density using splines to approximate the log-density
using
the 1992 knot deletion algorithm (oldlogspline).
The 1997 algorithm using knot
deletion and addition is available using the logspline function.
oldlogspline(uncensored, right, left, interval, lbound,
ubound, nknots, knots, penalty, delete = TRUE)vector of uncensored observations from the distribution whose density is
to be estimated. If there are no uncensored observations, this argument can
be omitted. However, either uncensored or interval must be specified.
vector of right censored observations from the distribution whose density is to be estimated. If there are no right censored observations, this argument can be omitted.
vector of left censored observations from the distribution whose density is to be estimated. If there are no left censored observations, this argument can be omitted.
two column matrix of lower and upper bounds of observations that are interval censored from the distribution whose density is to be estimated. If there are no interval censored observations, this argument can be omitted.
lower/upper bound for the support of the density. For example, if there
is a priori knowledge that the density equals zero to the left of 0,
and has a discontinuity at 0,
the user could specify lbound = 0. However, if the density is
essentially zero near 0, one does not need to specify lbound. The
default for lbound is -inf and the default for
ubound is inf.
forces the method to start with nknots knots (delete = TRUE) or to fit a
density with nknots knots (delete = FALSE). The method has an automatic rule
for selecting nknots if this parameter is not specified.
ordered vector of values (that should cover the complete range of the
observations), which forces the method to start with these knots (delete = TRUE)
or to fit a density with these knots delete = FALSE). Overrules nknots.
If knots is not specified, a default knot-placement rule is employed.
the parameter to be used in the AIC criterion. The method chooses
the number of knots that minimizes -2 * loglikelihood + penalty * (number of knots - 1).
The default is to use a penalty parameter of penalty = log(samplesize) as in BIC. The effect of
this parameter is summarized in summary.oldlogspline.
should stepwise knot deletion be employed?
Object of the class oldlogspline, that is intended as input for
plot.oldlogspline,
summary.oldlogspline,
doldlogspline (densities),
poldlogspline (probabilities),
qoldlogspline (quantiles),
roldlogspline (random numbers from the fitted distribution).
The function oldlogspline.to.logspline can translate an object of the class
oldlogspline to an object of the class logspline.
The object has the following members:
the command that was executed.
vector of the locations of the knots in the oldlogspline model.
old
coefficients of the spline. The first coefficient is the constant term, the second is the linear term and the k-th \((k>2)\) is the coefficient of \((x-t(k-2))^3_+\) (where \(x^3_+\) means the positive part of the third power of \(x\), and \(t(k-2)\) means knot \(k-2\)). If a coefficient is zero the corresponding knot was deleted from the model.
first element: 0 - lbound was \(-\inf\) 1 it was something else; second
element: lbound, if specified; third element: 0 - ubound was \(\inf\),
1 it was something else; fourth element: ubound, if specified.
the k-th element is the log-likelihood of the fit with k+2 knots.
the penalty that was used.
the sample size that was used.
was stepwise knot deletion employed?
Charles Kooperberg and Charles J. Stone. Logspline density estimation for censored data (1992). Journal of Computational and Graphical Statistics, 1, 301--328.
Charles J. Stone, Mark Hansen, Charles Kooperberg, and Young K. Truong. The use of polynomial splines and their tensor products in extended linear modeling (with discussion) (1997). Annals of Statistics, 25, 1371--1470.
logspline,
oldlogspline,
plot.oldlogspline,
summary.oldlogspline,
doldlogspline,
poldlogspline,
qoldlogspline,
roldlogspline,
oldlogspline.to.logspline.
# NOT RUN {
# A simple example
y <- rnorm(100)
fit <- oldlogspline(y)
plot(fit)
# An example involving censoring and a lower bound
y <- rlnorm(1000)
censoring <- rexp(1000) * 4
delta <- 1 * (y <= censoring)
y[delta == 0] <- censoring[delta == 0]
fit <- oldlogspline(y[delta == 1], y[delta == 0], lbound = 0)
# }
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