SatPiece | R Documentation |
Creates an instance of a saturated pairwise interaction point process model with piecewise constant potential function. The model can then be fitted to point pattern data.
SatPiece(r, sat)
r |
vector of jump points for the potential function |
sat |
vector of saturation values, or a single saturation value |
This is a generalisation of the Geyer saturation point process model,
described in Geyer
, to the case of multiple interaction
distances. It can also be described as the saturated analogue of a
pairwise interaction process with piecewise-constant pair potential,
described in PairPiece
.
The saturated point process with interaction radii r[1], ..., r[k], saturation thresholds s[1],...,s[k], intensity parameter beta and interaction parameters gamma[1], ..., gamma[k], is the point process in which each point x[i] in the pattern X contributes a factor
beta gamma[1]^v(1, x_i, X) ... gamma[k]^v(k, x_i, X)
to the probability density of the point pattern, where
v(j, x_i, X) = min(s[j], t(j, x_i, X))
where t(j,x[i],X) denotes the number of points in the pattern X which lie at a distance between r[j-1] and r[j] from the point x[i]. We take r[0] = 0 so that t(1, x[i], X) is the number of points of X that lie within a distance r[1] of the point x[i].
SatPiece
is used to fit this model to data.
The function ppm()
, which fits point process models to
point pattern data, requires an argument
of class "interact"
describing the interpoint interaction
structure of the model to be fitted.
The appropriate description of the piecewise constant Saturated pairwise
interaction is yielded by the function SatPiece()
.
See the examples below.
Simulation of this point process model is not yet implemented. This model is not locally stable (the conditional intensity is unbounded).
The argument r
specifies the vector of interaction distances.
The entries of r
must be strictly increasing, positive numbers.
The argument sat
specifies the vector of saturation parameters.
It should be a vector of the same length as r
, and its entries
should be nonnegative numbers. Thus sat[1]
corresponds to the
distance range from 0
to r[1]
, and sat[2]
to the
distance range from r[1]
to r[2]
, etc.
Alternatively sat
may be a single number, and this saturation
value will be applied to every distance range.
Infinite values of the
saturation parameters are also permitted; in this case
v(j, x_i, X) = t(j, x_i, X)
and there is effectively no ‘saturation’ for the distance range in
question. If all the saturation parameters are set to Inf
then
the model is effectively a pairwise interaction process, equivalent to
PairPiece
(however the interaction parameters
gamma obtained from SatPiece
are the
square roots of the parameters gamma
obtained from PairPiece
).
If r
is a single number, this model is virtually equivalent to the
Geyer process, see Geyer
.
An object of class "interact"
describing the interpoint interaction
structure of a point process.
and \rolf
in collaboration with Hao Wang and Jeff Picka
ppm
,
pairsat.family
,
Geyer
,
PairPiece
,
BadGey
.
SatPiece(c(0.1,0.2), c(1,1)) # prints a sensible description of itself SatPiece(c(0.1,0.2), 1) ppm(cells ~1, SatPiece(c(0.07, 0.1, 0.13), 2)) # fit a stationary piecewise constant Saturated pairwise interaction process # ppm(cells ~polynom(x,y,3), SatPiece(c(0.07, 0.1, 0.13), 2)) # nonstationary process with log-cubic polynomial trend
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