Thanks a lot for your reply
I'll look into that and let you know if I have further questions
Rainer
Adrian Baddeley wrote:> Rainer M Krug writes:
>
> > Thorsten Wiegand used in his paper Wiegand T., and K. A. Moloney
2004.
> > Rings, circles and null-models for point pattern analysis in ecology.
> > Oikos 104: 209-229 a statistic he called O-Ring statistic which is
> > similar to Ripley's K, only that it uses rings instead of
circles.
> >
> > http://www.oesa.ufz.de/towi/towi_programita.html#ring
> >
> > Is this statistic included in one of the packages in R?
>
> This kind of functionality is available in the R package `spatstat'
> (available on CRAN or from www.spatstat.org)
>
> According to the cited website, the O-ring statistic is a rescaled
> version of the pair correlation function between two types of points:
> O_12(r) = lambda_2 g_12(r)
>
> In spatstat, pair correlation functions are computed by the function
> 'pcf'. To estimate the cross-type pair correlation function,
> you do something like
> pcf(Kcross(X, 1, 2))
> where X is a marked point pattern containing points of types 1 and 2.
> To estimate the intensity of type 2 points you use summary(X).
>
> Here's an example for the bivariate point pattern dataset
'amacrine'
> provided in the spatstat package. The dataset has points of two types
> labelled "on" and "off".
>
> data(amacrine)
> K12 <- Kcross(amacrine, "on", "off")
> g12 <- pcf(K12, method="d", spar=0.7)
> lambda2 <-
summary(amacrine)$marks["off","intensity"]
> Oring <- eval.fv(lambda2 * g12)
> plot(Oring, ylab="Oring(r)")
>
> regards
> Adrian Baddeley
>
>
--
--
Rainer M. Krug, Dipl. Phys. (Germany), MSc Conservation Biology (UCT)
Department of Conservation Ecology
University of Stellenbosch
Matieland 7602
South Africa
Tel: +27 - (0)72 808 2975 (w)
Fax: +27 - (0)21 808 3304
Cell: +27 - (0)83 9479 042
email: RKrug at sun.ac.za
Rainer at krugs.de