The MittagLeffleR R package

- calculates probability densities, probabilities and quantiles, based on a

Laplace-Inversion algorithm by Roberto Garrappa. - simulates random variables from both types Mittag-Leffler distributions
- fits a Mittag-Leffler distribution to data, using the log-moments estimator by Dexter Cahoy.

The first type Mittag-Leffler distribution is a heavy-tailed distribution, and occurs mainly as a waiting time distribution in problems with “fractional” time scales, e.g. times between earthquakes.

The second type Mittag-Leffler distribution is light-tailed, and “inverse” to the sum-stable distributions. It typically models the number of events in fractional systems and is used for time-changes of stochastic processes, e.g. anomalous diffusion processes.

You can install MittagLeffleR from CRAN via

```
install.packages("MittagLeffleR")
library(MittagLeffleR)
```

Install the `devtools`

package first, then

```
# install.packages("devtools")
devtools::install_github("strakaps/MittagLeffler")
library(MittagLeffleR)
```

See the reference manual at strakaps.github.io/MittagLeffleR/reference/index.html

Generate a dataset first:

```
library(MittagLeffleR)
y = rml(n = 10000, tail = 0.9, scale = 2)
```

Fit the distribution:

```
logMomentEstimator(y, 0.95)
#> nu delta nuLo nuHi deltaLo deltaHi
#> 0.8979629 2.0015598 0.8976156 0.8983103 1.9996012 2.0035184
```

Read off

- the shape parameter (0 < < 1),
- the scale parameter (> 0),
- their 95% confidence intervals.

Standard Brownian motion with drift (1) has, at time (t), has a normal probability density (n(x|= t, ^2 = t)). A fractional diffusion at time (t) has the time-changed probability density

[p(x,t) = n(x| = u, ^2 = u)h(u,t) du]

where (h(u,t)) is a second type Mittag-Leffler probability density with scale (t^). (We assume (t=1).)

```
tail <- 0.65
dx <- 0.01
x <- seq(-2,5,dx)
umax <- qml(p = 0.99, tail = tail, scale = 1, second.type = TRUE)
u <- seq(0.01,umax,dx)
h <- dml(x = u, tail = tail, scale = 1, second.type = TRUE)
N <- outer(x,u,function(x,u){dnorm(x = x, mean = u, sd = sqrt(u))})
p <- N %*% h * dx
plot(x,p, type='l', main = "Fractional diffusion with drift at t=1")
```

See the page strakaps.github.io/MittagLeffleR/articles/ for vignettes on

- Plots of the Mittag-Leffler distributions
- Details of Mittag-Leffler random variate generation
- Probabilities and Quantiles