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I have a multi-parameter function on which I infer the parameters using MCMC. This means that I have many samples of the parameters, and I can plot the functions:

# Simulate some parameters. Really, I get these from MCMC sampling.
first = rnorm(1000)  # a
second = rnorm(1000)  # b

# The function (geometric)
geometric = function(x, a, b) b*(1 - a^(x + 1)/a)  

# Plot curves. Perhaps not the most efficient way, but it works.
curve(geometric(x, first[1], second[1]), ylim=c(-3, 3))  # first curve
for(i in 2:length(first)) {
  curve(geometric(x, first[i], second[i]), add=T, col='#00000030')  # add others
}

enter image description here

How do I make this into a density plot instead of plotting the individual curves? For example, it's hard to see just how much denser it is around y=0 than around other values.

The following would be nice:

  1. The ability to draw observed values on top (points and lines).
  2. Drawing a contour line in the density, e.g. the 95% Highest Posterior Density interval or the 2.5 and 97.5 quantiles.
  • Convert your data-points (of the plot; x->y) to some form accepted by some Kernel Density Estimation function. Fit this (with some Cross-validation to find good KDE params). Then plot the KDE estimation. – sascha Jun 17 '16 at 9:13
  • You can plot densities (or quantiles) for specific values (a grid) of x. However, you should be aware that this would entail an assumption of independence for these. And this assumption is not justified. – Roland Jun 17 '16 at 9:24

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