I am working with Rice's Mathematical statistics and data analysis and on page 179 it introduces Monte Carlo Integration.
To calculate $I(f) = \int_{0}^1 f(x)dx$ you can generate $X_1, ... X_n$ from a uniform distribution and calculate
$\hat{I}(f) = \frac{1}{n} \frac{1}{\sqrt{2 \pi}} \sum_{i=1}...
A brief suggestion: you should modify it to include the description of f in the calculation. Your expression for $\hat{I}(f)$ does not seem to depend on $f$. :)
at this moment, "unusual" = "not how I would word it" :)
Second suggestion, I would write out the math for the two calculations to show how that motivates the code being written, rather than start with the code. That's not a good practice in the long run - it leads to thinking that code = math. :)
You should see how often I edit my own questions. :)
Time to go back to work. Have a great Sunday!
If you can enjoy it in Europe, a place that Republican US Presidential candidates tell us every day (at least lately) is only just this side of hell. :)
(Not that I feel that way, so it cracks me up to see these Presidential debates and the strange fear-mongering.)
My question: How do I find the boundaries for the plot area?
I'm using the plotHR function for plotting splines from cox regressions. I've done some adaptations found here and the density plot annoys me so I want to be able to change it to a simple regular polygon without the need for using a se...
I am working with Rice's Mathematical statistics and data analysis and on page 179 it introduces Monte Carlo Integration.
To calculate $I(f) = \int_{0}^1 f(x)dx$ you can generate $X_1, ... X_n$ from a uniform distribution and calculate
$\hat{I}(f) = \frac{1}{n} \frac{1}{\sqrt{2 \pi}} \sum_{i=1}...
