- implements a univariate kernel density estimator that can handle bounded and discrete data.
- provides classical kernel density as well as log-linear and log-quadratic methods.
- is highly efficient due to the Fast Fourier Transform, spline interpolation, and a C++ backend.

For details, see the API documentation.

- the stable release from CRAN:

`install.packages("kde1d")`

- the latest development version:

```
# install.packages("remotes")
::install_github("tnagler/kde1d@dev") remotes
```

```
<- rnorm(100) # simulate data
x <- kde1d(x) # estimate density
fit dkde1d(0, fit) # evaluate density estimate
summary(fit) # information about the estimate
plot(fit) # plot the density estimate
curve(dnorm(x), add = TRUE, # add true density
col = "red")
```

```
<- rgamma(100, shape = 1) # simulate data
x <- kde1d(x, xmin = 0, deg = 1) # estimate density
fit dkde1d(seq(0, 5, by = 1), fit) # evaluate density estimate
summary(fit) # information about the estimate
plot(fit) # plot the density estimate
curve(dgamma(x, shape = 1), # add true density
add = TRUE, col = "red",
from = 1e-3)
```

```
<- rbinom(100, size = 5, prob = 0.5) # simulate data
x <- ordered(x, levels = 0:5) # declare as ordered
x <- kde1d(x) # estimate density
fit dkde1d(sort(unique(x)), fit) # evaluate density estimate
summary(fit) # information about the estimate
plot(fit) # plot the density estimate
points(ordered(0:5, 0:5), # add true density
dbinom(0:5, 5, 0.5), col = "red")
```

```
<- rnorm(100) # simulate data
x <- rexp(100) # weights as in Bayesian bootstrap
weights <- kde1d(x, weights = weights) # weighted fit
fit plot(fit) # compare with unweighted fit
lines(kde1d(x), col = 2)
```

Geenens, G. (2014). *Probit transformation for kernel density
estimation on the unit interval*. Journal of the American
Statistical Association, 109:505, 346-358, arXiv:1303.4121

Geenens, G., Wang, C. (2018). *Local-likelihood transformation
kernel density estimation for positive random variables.* Journal of
Computational and Graphical Statistics, to appear, arXiv:1602.04862

Loader, C. (2006). *Local regression and likelihood*. Springer
Science & Business Media.

Nagler, T. (2018a). *A generic approach to nonparametric function
estimation with mixed data.* Statistics & Probability Letters,
137:326–330, arXiv:1704.07457

Nagler, T. (2018b). *Asymptotic analysis of the jittering kernel
density estimator.* Mathematical Methods of Statistics, in press, arXiv:1705.05431