ichisq: Visualization of Random Variate Generation for the Chi-Squared Distribution

A vector of Chi-Squared random variates

Generates random variates from the Chi-Squared distribution, and optionally, illustrates

• the use of the inverse-CDF technique,

• the effect of random sampling variability in relation to the PDF and CDF.

When all of the graphics are requested,

• the first graph illustrates the use of the inverse-CDF technique by graphing the population CDF and the transformation of the random numbers to random variates,

• the second graph illustrates the effect of random sampling variability by graphing the population PDF and the histogram associated with the random variates, and

• the third graph illustrates effect of random sampling variability by graphing the population CDF and the empirical CDF associated with the random variates.

All aspects of the random variate generation algorithm are output in red by default, which can be changed by specifying sampleColor. All aspects of the population distribution are output in gray by default, which can be changed by specifying populationColor.

The chi-squared distribution with df = $n\ge 0$ degrees of freedom has density

$$f_n(x)=\frac{1}{2^{n/2}\mathrm{\Gamma }(n/2)}{x}^{n/2-1}{e}^{-x/2}$$

for $x>0$. The mean and variance are $n$ and $2n$.

The non-central chi-squared distribution with df = n degrees of freedom and non-centrality parameter ncp $=\lambda$ has density

$$f(x)=e^{-\lambda /2}\sum _{r=0}^{\mathrm{\infty }}\frac{(\lambda /2{)}^r}{r!}{f}_{n+2r}(x)$$

for $x\ge 0$.

The algorithm for generating random variates from the chi-squared distribution is synchronized (one random variate for each random number) and monotone in u. This means that the variates generated here might be useful in some variance reduction techniques used in Monte Carlo and discrete-event simulation.

Values from the u vector are plotted in the cdf plot along the vertical axis as colored dots. A horizontal, dashed, colored line extends from the dot to the population cdf. At the intersection, a vertical, dashed colored line extends downward to the horizontal axis, where a second colored dot, denoting the associated chi-squared random variate is plotted.

This is not a particularly fast variate generation algorithm because it uses the base R qchisq function to invert the values contained in u.

All of the elements of the u vector must be between 0 and 1. Alternatively, u can be NULL in which case plot(s) of the theoretical PDF and cdf are displayed according to plotting parameter values (defaulting to display of both the PDF and cdf).

The show parameter can be used as a shortcut way to denote plots to display. The argument to show can be either:

• a binary vector of length three, where the entries from left to right correspond to showCDF, showPDF, and showECDF, respectively. For each entry, a 1 indicates the plot should be displayed, and a 0 indicates the plot should be suppressed.

• an integer in [0,7] interpreted similar to the Unix chmod command. That is, the integer's binary representation can be transformed into a length-three vector discussed above (e.g., 6 corresponds to c(1,1,0)). See examples.

Any valid value for show takes precedence over existing individual values for showCDF, showPDF, and showECDF.

If respectLayout is TRUE, the function respects existing settings for device layout. Note, however, that if the number of plots requested (either via show or via showCDF, showPMF, and showECDF) exceeds the number of plots available in the current layout (as determined by prod(par("mfrow"))), the function will display all requested plots but will also display a warning message indicating that the current layout does not permit simultaneous viewing of all requested plots. The most recent plot with this attribute can be further annotated after the call.

If respectLayout is FALSE, any existing user settings for device layout are ignored. That is, the function uses par to explicitly set mfrow sufficient to show all requested plots stacked vertically to align their horizontal axes, and then resets row, column, and margin settings to their prior state on exit.

The minPlotQuantile and maxPlotQuantile arguments are present in order to compress the plots horizontally. The random variates generated are not impacted by these two arguments. Vertical, dotted, black lines are plotted at the associated quantiles on the plots.

plotDelay can be used to slow down or halt the variate generation for classroom explanation.

In the plot associated with the PDF, the maximum plotting height is associated with 125% of the maximum height of PDF. Any histogram cell that extends above this limit will have three dots appearing above it.