miplot: Morisita Index Plot
In spatstat.explore: Exploratory Data Analysis for the 'spatstat' Family
miplot R Documentation
Morisita Index Plot
Description
Displays the Morisita Index Plot of a spatial point pattern.
Usage
miplot(X, ...)
Arguments
X
A point pattern (object of class "ppp") or something
acceptable to as.ppp.
...
Optional arguments to control the appearance of the plot.
Details
Morisita (1959) defined an index of spatial aggregation for a spatial
point pattern based on quadrat counts. The spatial domain of the point
pattern is first divided into Q subsets (quadrats) of equal size and
shape. The numbers of points falling in each quadrat are counted.
Then the Morisita Index is computed as
\mbox{MI} = Q \frac{\sum_{i=1}^Q n_i (n_i - 1)}{N(N-1)}
where n_i is the number of points falling in the i-th
quadrat, and N is the total number of points.
If the pattern is completely random, MI should be approximately
equal to 1. Values of MI greater than 1 suggest clustering.
The Morisita Index plot is a plot of the Morisita Index
MI against the linear dimension of the quadrats.
The point pattern dataset is divided into 2 \times 2
quadrats, then 3 \times 3 quadrats, etc, and the
Morisita Index is computed each time. This plot is an attempt to
discern different scales of dependence in the point pattern data.
Value
None.
Author(s)
\adrian
and \rolf
References
M. Morisita (1959) Measuring of the dispersion of individuals and
analysis of the distributional patterns.
Memoir of the Faculty of Science, Kyushu University, Series E: Biology.
2: 215–235.
See Also
quadratcount
Examples
miplot(longleaf)
opa <- par(mfrow=c(2,3))
plot(cells)
plot(japanesepines)
plot(redwood)
miplot(cells)
miplot(japanesepines)
miplot(redwood)
par(opa)
spatstat.explore documentation built on Oct. 22, 2024, 9:07 a.m.
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| miplot | R Documentation |
Morisita Index Plot
Description
Displays the Morisita Index Plot of a spatial point pattern.
Usage
miplot(X, ...)
Arguments
X |
A point pattern (object of class |
... |
Optional arguments to control the appearance of the plot. |
Details
Morisita (1959) defined an index of spatial aggregation for a spatial
point pattern based on quadrat counts. The spatial domain of the point
pattern is first divided into Q subsets (quadrats) of equal size and
shape. The numbers of points falling in each quadrat are counted.
Then the Morisita Index is computed as
\mbox{MI} = Q \frac{\sum_{i=1}^Q n_i (n_i - 1)}{N(N-1)}
where n_i is the number of points falling in the i-th
quadrat, and N is the total number of points.
If the pattern is completely random, MI should be approximately
equal to 1. Values of MI greater than 1 suggest clustering.
The Morisita Index plot is a plot of the Morisita Index
MI against the linear dimension of the quadrats.
The point pattern dataset is divided into 2 \times 2
quadrats, then 3 \times 3 quadrats, etc, and the
Morisita Index is computed each time. This plot is an attempt to
discern different scales of dependence in the point pattern data.
Value
None.
Author(s)
\adrianand \rolf
References
M. Morisita (1959) Measuring of the dispersion of individuals and analysis of the distributional patterns. Memoir of the Faculty of Science, Kyushu University, Series E: Biology. 2: 215–235.
See Also
quadratcount
Examples
miplot(longleaf)
opa <- par(mfrow=c(2,3))
plot(cells)
plot(japanesepines)
plot(redwood)
miplot(cells)
miplot(japanesepines)
miplot(redwood)
par(opa)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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