1

Given:

Consider the density function $\phi$ defined on $\mathbb{R}$ for $a\in \mathbb{R}$ and $b \in \mathbb{R}_+^\star$ such that $\forall x \in \mathbb{R}$, $$ \phi(x; a,b) = \frac{1}{\sqrt{2\pi b^2}}e^{-\frac{1}{2}\left(\frac{x-a}{b}\right)^2}. $$ Consider now the so-called Bart Simpson probability density function $f$ given by \begin{eqnarray} \label{eq:bart:1d:1} f(x) = \frac{1}{2}\phi(x; 0,1) + \frac{1}{10}\sum_{j=0}^4{\phi(x; (j/2)-1, 1/10)}. \end{eqnarray}

Questions:

  1. Plot the pdf $f$ in $[-\pi, \pi]$.

Attempt:

So, I understand the notation $\phi(x; a,b)$ -- $a$ is the mean and $b$ is the standard deviation for the density function $\phi$.

I can write R code to simulate $\phi$ and $f(x)$:

  calc_cdf <- function(a, b, x) {
    coef <- 1/sqrt(2*pi*b^2)
    expon <- exp(-0.5*((x-a)/b)^2)
    return(coef * expon)
  }
  calc_pdf <- function(x) {
    term1 <- 0.5 * calc_cdf(0, 1, x)
    sum2 <- 0
    for (j in 0:4) { sum2 = sum2 + calc_cdf(j/2 - 1, 0.1, x) }
    term2 <- 0.1 * sum2
    return(term1 + term2)
  }

Now this is where I'm stuck: How on earth do I plot a PDF? There are libraries for plotting defined PDFs, such as EnvStats::pdfPlot, but that doesn't allow you to define your own PDF and plot it.

So far as I can tell, there are no libraries for doing so. I can't find any reference to a "Bart Simpson" PDF either.

Please, any help would be greatly appreciated!

migrated from stats.stackexchange.com Mar 14 at 22:21

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0

You don't need a whole library to plot a function. It's built into base R.

See ?plot.function and ?curve, including their examples.

e.g.

 plot(dnorm,-3,3)
 plot(function (x) dgamma(x,shape=2),0,6)

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