dudi.pco: Principal Coordinates Analysis
In ade4: Analysis of Ecological Data : Exploratory and Euclidean Methods in Environmental Sciences
Description
Usage
Arguments
Value
Author(s)
References
Examples
Description
dudi.pco performs a principal coordinates analysis of a Euclidean distance matrix
and returns the results as objects of class pco and dudi.
Usage
1
2
3
4
5
Arguments
d
an object of class dist containing a Euclidean distance matrix.
row.w
an optional distance matrix row weights.
If not NULL, must be a vector of positive numbers with length equal to the size of the distance matrix
scannf
a logical value indicating whether the eigenvalues bar plot should be displayed
nf
if scannf FALSE, an integer indicating the number of kept axes
full
a logical value indicating whether all the axes should be kept
tol
a tolerance threshold to test whether the distance matrix is Euclidean :
an eigenvalue is considered positive if it is larger than
-tol*lambda1 where lambda1 is the largest eigenvalue.
x
an object of class pco
xax
the column number for the x-axis
yax
the column number for the y-axis
clab.row
a character size for the row labels
posieig
if "top" the eigenvalues bar plot is upside,
if "bottom" it is downside, if "none" no plot
sub
a string of characters to be inserted as legend
csub
a character size for the legend, used with par("cex")*csub
...
further arguments passed to or from other methods
Value
dudi.pco returns a list of class pco and dudi. See dudi
Author(s)
Daniel Chessel
Anne B Dufour anne-beatrice.dufour@univ-lyon1.fr
References
Gower, J. C. (1966) Some distance properties of latent root and vector methods used in multivariate analysis. Biometrika, 53, 325–338.
Examples
1
2
3
4
5
6
7
8
data(yanomama)
gen <- quasieuclid(as.dist(yanomama$gen))
geo <- quasieuclid(as.dist(yanomama$geo))
ant <- quasieuclid(as.dist(yanomama$ant))
geo1 <- dudi.pco(geo, scann = FALSE, nf = 3)
gen1 <- dudi.pco(gen, scann = FALSE, nf = 3)
ant1 <- dudi.pco(ant, scann = FALSE, nf = 3)
plot(coinertia(ant1, gen1, scann = FALSE))
Example output
ade4 documentation built on May 2, 2019, 5:50 p.m.
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Description Usage Arguments Value Author(s) References Examples
Description
dudi.pco performs a principal coordinates analysis of a Euclidean distance matrix
and returns the results as objects of class pco and dudi.
Usage
1 2 3 4 5 |
Arguments
d |
an object of class |
row.w |
an optional distance matrix row weights. If not NULL, must be a vector of positive numbers with length equal to the size of the distance matrix |
scannf |
a logical value indicating whether the eigenvalues bar plot should be displayed |
nf |
if scannf FALSE, an integer indicating the number of kept axes |
full |
a logical value indicating whether all the axes should be kept |
tol |
a tolerance threshold to test whether the distance matrix is Euclidean :
an eigenvalue is considered positive if it is larger than
|
x |
an object of class |
xax |
the column number for the x-axis |
yax |
the column number for the y-axis |
clab.row |
a character size for the row labels |
posieig |
if "top" the eigenvalues bar plot is upside, if "bottom" it is downside, if "none" no plot |
sub |
a string of characters to be inserted as legend |
csub |
a character size for the legend, used with |
... |
further arguments passed to or from other methods |
Value
dudi.pco returns a list of class pco and dudi. See dudi
Author(s)
Daniel Chessel
Anne B Dufour anne-beatrice.dufour@univ-lyon1.fr
References
Gower, J. C. (1966) Some distance properties of latent root and vector methods used in multivariate analysis. Biometrika, 53, 325–338.
Examples
1 2 3 4 5 6 7 8 | data(yanomama)
gen <- quasieuclid(as.dist(yanomama$gen))
geo <- quasieuclid(as.dist(yanomama$geo))
ant <- quasieuclid(as.dist(yanomama$ant))
geo1 <- dudi.pco(geo, scann = FALSE, nf = 3)
gen1 <- dudi.pco(gen, scann = FALSE, nf = 3)
ant1 <- dudi.pco(ant, scann = FALSE, nf = 3)
plot(coinertia(ant1, gen1, scann = FALSE))
|
Example output
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