gearymoran: Moran's I and Geary'c randomization tests for spatial and...
In ade4: Analysis of Ecological Data : Exploratory and Euclidean Methods in Environmental Sciences
Description
Usage
Arguments
Details
Value
Author(s)
References
See Also
Examples
Description
This function performs Moran's I test using phylogenetic and spatial link matrix (binary or general). It uses neighbouring weights so Moran's I and Geary's c randomization tests are equivalent.
Usage
1
gearymoran(bilis, X, nrepet = 999, alter=c("greater", "less", "two-sided"))
Arguments
bilis
: a n by n link matrix where n is the row number of X
X
: a data frame with continuous variables
nrepet
: number of random vectors for the randomization test
alter
a character string specifying the alternative hypothesis,
must be one of "greater" (default), "less" or "two-sided"
Details
bilis is a squared symmetric matrix which terms are all positive or null.
bilis is firstly transformed in frequency matrix A by dividing it by the total sum of data matrix :
a_ij = bilis_ij / (sum_i sum_j bilis_ij)
The neighbouring weights is defined by the matrix D = diag(d_1,d_2, …) where d_i = sum_j bilis_ij.
For each vector x of the data frame X, the test is based on the Moran statistic t(x)Ax where x is D-centred.
Value
Returns an object of class krandtest (randomization tests).
Author(s)
Sébastien Ollier sebastien.ollier@u-psud.fr
Daniel Chessel
References
Cliff, A. D. and Ord, J. K. (1973) Spatial autocorrelation, Pion, London.
Thioulouse, J., Chessel, D. and Champely, S. (1995) Multivariate analysis of spatial patterns: a unified approach to local and global structures.
Environmental and Ecological Statistics, 2, 1–14.
See Also
moran.test and geary.test for classical versions of Moran's test and Geary's one
Examples
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# a spatial example
data(mafragh)
tab0 <- (as.data.frame(scalewt(mafragh$mil)))
bilis0 <- neig2mat(mafragh$neig)
gm0 <- gearymoran(bilis0, tab0, 999)
gm0
plot(gm0, nclass = 20)
## Not run:
# a phylogenetic example
data(mjrochet)
mjr.phy <- newick2phylog(mjrochet$tre)
mjr.tab <- log(mjrochet$tab)
gearymoran(mjr.phy$Amat, mjr.tab)
gearymoran(mjr.phy$Wmat, mjr.tab)
if(adegraphicsLoaded()) {
g1 <- table.value(mjr.phy$Wmat, ppoints.cex = 0.35, nclass = 5,
axis.text = list(cex = 0), plot = F)
g2 <- table.value(mjr.phy$Amat, ppoints.cex = 0.35, nclass = 5,
axis.text = list(cex = 0), plot = F)
G <- cbindADEg(g1, g2, plot = TRUE)
} else {
par(mfrow = c(1,2))
table.value(mjr.phy$Wmat, csi = 0.25, clabel.r = 0)
table.value(mjr.phy$Amat, csi = 0.35, clabel.r = 0)
par(mfrow = c(1,1))
}
## End(Not run)
ade4 documentation built on May 2, 2019, 5:50 p.m.
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Description Usage Arguments Details Value Author(s) References See Also Examples
Description
This function performs Moran's I test using phylogenetic and spatial link matrix (binary or general). It uses neighbouring weights so Moran's I and Geary's c randomization tests are equivalent.
Usage
1 | gearymoran(bilis, X, nrepet = 999, alter=c("greater", "less", "two-sided"))
|
Arguments
bilis |
: a n by n link matrix where n is the row number of X |
X |
: a data frame with continuous variables |
nrepet |
: number of random vectors for the randomization test |
alter |
a character string specifying the alternative hypothesis, must be one of "greater" (default), "less" or "two-sided" |
Details
bilis is a squared symmetric matrix which terms are all positive or null.
bilis is firstly transformed in frequency matrix A by dividing it by the total sum of data matrix :
a_ij = bilis_ij / (sum_i sum_j bilis_ij)
The neighbouring weights is defined by the matrix D = diag(d_1,d_2, …) where d_i = sum_j bilis_ij. For each vector x of the data frame X, the test is based on the Moran statistic t(x)Ax where x is D-centred.
Value
Returns an object of class krandtest (randomization tests).
Author(s)
Sébastien Ollier sebastien.ollier@u-psud.fr
Daniel Chessel
References
Cliff, A. D. and Ord, J. K. (1973) Spatial autocorrelation, Pion, London.
Thioulouse, J., Chessel, D. and Champely, S. (1995) Multivariate analysis of spatial patterns: a unified approach to local and global structures. Environmental and Ecological Statistics, 2, 1–14.
See Also
moran.test and geary.test for classical versions of Moran's test and Geary's one
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 | # a spatial example
data(mafragh)
tab0 <- (as.data.frame(scalewt(mafragh$mil)))
bilis0 <- neig2mat(mafragh$neig)
gm0 <- gearymoran(bilis0, tab0, 999)
gm0
plot(gm0, nclass = 20)
## Not run:
# a phylogenetic example
data(mjrochet)
mjr.phy <- newick2phylog(mjrochet$tre)
mjr.tab <- log(mjrochet$tab)
gearymoran(mjr.phy$Amat, mjr.tab)
gearymoran(mjr.phy$Wmat, mjr.tab)
if(adegraphicsLoaded()) {
g1 <- table.value(mjr.phy$Wmat, ppoints.cex = 0.35, nclass = 5,
axis.text = list(cex = 0), plot = F)
g2 <- table.value(mjr.phy$Amat, ppoints.cex = 0.35, nclass = 5,
axis.text = list(cex = 0), plot = F)
G <- cbindADEg(g1, g2, plot = TRUE)
} else {
par(mfrow = c(1,2))
table.value(mjr.phy$Wmat, csi = 0.25, clabel.r = 0)
table.value(mjr.phy$Amat, csi = 0.35, clabel.r = 0)
par(mfrow = c(1,1))
}
## End(Not run)
|
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