Principal Component Analysis
dudi.pca
performs a principal component analysis of a data frame and
returns the results as objects of class pca
and dudi
.
dudi.pca(df, row.w = rep(1, nrow(df))/nrow(df), col.w = rep(1, ncol(df)), center = TRUE, scale = TRUE, scannf = TRUE, nf = 2)
df |
a data frame with n rows (individuals) and p columns (numeric variables) |
row.w |
an optional row weights (by default, uniform row weights) |
col.w |
an optional column weights (by default, unit column weights) |
center |
a logical or numeric value, centring option |
scale |
a logical value indicating whether the column vectors should be normed for the row.w weighting |
scannf |
a logical value indicating whether the screeplot should be displayed |
nf |
if scannf FALSE, an integer indicating the number of kept axes |
Returns a list of classes pca
and dudi
(see dudi) containing the used information
for computing the principal component analysis :
tab |
the data frame to be analyzed depending of the transformation arguments (center and scale) |
cw |
the column weights |
lw |
the row weights |
eig |
the eigenvalues |
rank |
the rank of the analyzed matrice |
nf |
the number of kept factors |
c1 |
the column normed scores i.e. the principal axes |
l1 |
the row normed scores |
co |
the column coordinates |
li |
the row coordinates i.e. the principal components |
call |
the call function |
cent |
the p vector containing the means for variables (Note that if |
norm |
the p vector containing the standard deviations for variables i.e. the root
of the sum of squares deviations of the values from their means divided by n (Note that if |
Daniel Chessel
Anne-Béatrice Dufour anne-beatrice.dufour@univ-lyon1.fr
prcomp
, princomp
in the mva
library
data(deug) deug.dudi <- dudi.pca(deug$tab, center = deug$cent, scale = FALSE, scan = FALSE) deug.dudi1 <- dudi.pca(deug$tab, center = TRUE, scale = TRUE, scan = FALSE) if(adegraphicsLoaded()) { g1 <- s.class(deug.dudi$li, deug$result, plot = FALSE) g2 <- s.arrow(deug.dudi$c1, lab = names(deug$tab), plot = FALSE) g3 <- s.class(deug.dudi1$li, deug$result, plot = FALSE) g4 <- s.corcircle(deug.dudi1$co, lab = names(deug$tab), full = FALSE, plot = FALSE) G1 <- rbindADEg(cbindADEg(g1, g2, plot = FALSE), cbindADEg(g3, g4, plot = FALSE), plot = TRUE) G2 <- s1d.hist(deug.dudi$tab, breaks = seq(-45, 35, by = 5), type = "density", xlim = c(-40, 40), right = FALSE, ylim = c(0, 0.1), porigin.lwd = 2) } else { par(mfrow = c(2, 2)) s.class(deug.dudi$li, deug$result, cpoint = 1) s.arrow(deug.dudi$c1, lab = names(deug$tab)) s.class(deug.dudi1$li, deug$result, cpoint = 1) s.corcircle(deug.dudi1$co, lab = names(deug$tab), full = FALSE, box = TRUE) par(mfrow = c(1, 1)) # for interpretations par(mfrow = c(3, 3)) par(mar = c(2.1, 2.1, 2.1, 1.1)) for(i in 1:9) { hist(deug.dudi$tab[,i], xlim = c(-40, 40), breaks = seq(-45, 35, by = 5), prob = TRUE, right = FALSE, main = names(deug$tab)[i], xlab = "", ylim = c(0, 0.10)) abline(v = 0, lwd = 3) } par(mfrow = c(1, 1)) }
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