It is unlikely (but not impossible) that there is a simple bug in
Kest that causes this, since this particular function has been tested intensively by many users. More likely you have a observation window that is irregular and there is a mathematical reason why the various estimates cannot be calculated at all distances. Please add a plot/summary of your point pattern so we have knowledge of the observation window (or even better give access to the observation window).
Furthermore, to manually inspect the estimates of the K-function you can convert the function value (
fv) object to a
data.frame and print it:
dat <- as.data.frame(kFem)
head(dat, n = 10)
Your window is indeed very irregular and the explanation of why it is not producing some corrections at large distances. I guess your transect is only a few metres wide and you are considering distances up to 50m. The border correction can only be calculated for distances up to something like the half width of the transect.
Kest implies that you believe that your transect is a subset of a big homogeneous point process (of equal intensity everywhere and with same correlation structure throughout space). If that is true then
Kest provides a sensible estimate of the unknown true homogeneous K-function. However, you provide a plot where you have divided the region into sections of high, medium and low intensity which doesn't agree with the assumption of homogeneity. The deviation from the theoretical Poisson line may just be due to inhomogeneous intensity and not actual correlation between points. You should probably only consider distances that are much smaller than 50 (you can set
rmax when you call