"envelope"),
compute another envelope from the same simulation data
using different parameters.
"envelope"(Y, fun = NULL, ..., transform=NULL, global=FALSE, VARIANCE=FALSE)"envelope").
envelope.
"envelope".
The function envelope is generic. This is the method for
the class "envelope".
The argument Y should be a simulation envelope (object of
class "envelope") produced by any of the methods for
envelope. Additionally, Y must contain either
Y should have been created by calling
envelope with savepatterns=TRUE);
Y should have been created by calling
envelope with savefuns=TRUE).
If the argument fun is given, it should be a summary function
that can be applied to the simulated point patterns that were
used to create Y. The envelope of
the summary function fun for these point patterns
will be computed using the parameters specified in ....
If fun is not given, then:
Y contains the summary functions that were used to
compute the original envelope, then the new envelope will be
computed from these original summary functions.
Y contains the simulated point patterns.
then the $K$ function Kest will be applied to
each of these simulated point patterns, and the new envelope will
be based on the $K$ functions.
The new envelope
will be computed using the parameters specified in ....
See envelope for a full list of envelope parameters.
Frequently-used parameters include nrank and nsim (to change the
number of simulations used and the significance level of the
envelope), global (to change from pointwise to global
envelopes) and VARIANCE (to compute the envelopes from the sample
moments instead of the ranks).
envelope
E <- envelope(cells, Kest, nsim=19, savefuns=TRUE, savepatterns=TRUE)
E2 <- envelope(E, nrank=2)
Eg <- envelope(E, global=TRUE)
EG <- envelope(E, Gest)
EL <- envelope(E, transform=expression(sqrt(./pi)))
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