hopskel: Hopkins-Skellam Test

The value of hopskel is a single number.

The value of hopskel.test is an object of class "htest"

representing the outcome of the test. It can be printed.

Hopkins and Skellam (1954) proposed a test of Complete Spatial Randomness based on comparing nearest-neighbour distances with point-event distances.

If the point pattern X contains n points, we first compute the nearest-neighbour distances \(P_1, \ldots, P_n\) so that \(P_i\) is the distance from the \(i\)th data point to the nearest other data point. Then we generate another completely random pattern U with the same number n of points, and compute for each point of U the distance to the nearest point of X, giving distances \(I_1, \ldots, I_n\). The test statistic is $$ A = \frac{\sum_i P_i^2}{\sum_i I_i^2} $$ The null distribution of \(A\) is roughly an \(F\) distribution with shape parameters \((2n,2n)\). (This is equivalent to using the test statistic \(H=A/(1+A)\) and referring \(H\) to the Beta distribution with parameters \((n,n)\)).

The function hopskel calculates the Hopkins-Skellam test statistic \(A\), and returns its numeric value. This can be used as a simple summary of spatial pattern: the value \(H=1\) is consistent with Complete Spatial Randomness, while values \(H < 1\) are consistent with spatial clustering, and values \(H > 1\) are consistent with spatial regularity.

The function hopskel.test performs the test. If method="asymptotic" (the default), the test statistic \(H\) is referred to the \(F\) distribution. If method="MonteCarlo", a Monte Carlo test is performed using nsim simulated point patterns.