K3est: K-function of a Three-Dimensional Point Pattern

A function value table (object of class "fv") that can be plotted, printed or coerced to a data frame containing the function values.

For a stationary point process \(\Phi\) in three-dimensional space, the three-dimensional \(K\) function is $$ K_3(r) = \frac 1 \lambda E(N(\Phi, x, r) \mid x \in \Phi) $$ where \(\lambda\) is the intensity of the process (the expected number of points per unit volume) and \(N(\Phi,x,r)\) is the number of points of \(\Phi\), other than \(x\) itself, which fall within a distance \(r\) of \(x\). This is the three-dimensional generalisation of Ripley's \(K\) function for two-dimensional point processes (Ripley, 1977).

The three-dimensional point pattern X is assumed to be a partial realisation of a stationary point process \(\Phi\). The distance between each pair of distinct points is computed. The empirical cumulative distribution function of these values, with appropriate edge corrections, is renormalised to give the estimate of \(K_3(r)\).

The available edge corrections are:

"translation":

the Ohser translation correction estimator (Ohser, 1983; Baddeley et al, 1993)

"isotropic":

the three-dimensional counterpart of Ripley's isotropic edge correction (Ripley, 1977; Baddeley et al, 1993).

Alternatively correction="all" selects all options.