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Ellipsoids are a generalization of ellipses to higher dimensions. Herein, confidence ellipsoids refers as a three-dimensional graphical representations, plotted in the space defined by three variables in a trivariate dataset.
library(magrittr)
library(dplyr)
library(ConfidenceEllipse)
data(glass, package = "ConfidenceEllipse")
The confidence_ellipsoid
function accepts x
, y
and z
input variables and computes the coordinate points of the ellipsoid at the specified confidence level conf_level
.
<- glass %>%
ellipsoid confidence_ellipsoid(x = SiO2, y = Na2O, z = Fe2O3, conf_level = 0.95)
%>% glimpse()
ellipsoid #> Rows: 2,500
#> Columns: 3
#> $ x <dbl> 66.54472, 66.54472, 66.54472, 66.54472, 66.54472, 66.54472, 66.54472…
#> $ y <dbl> 12.55263, 12.55263, 12.55263, 12.55263, 12.55263, 12.55263, 12.55263…
#> $ z <dbl> 0.6815153, 0.6815153, 0.6815153, 0.6815153, 0.6815153, 0.6815153, 0.…
::setupKnitr(autoprint = TRUE)
rgl::plot3d(
rglx = ellipsoid$x,
y = ellipsoid$y,
z = ellipsoid$z,
xlab = "SiO2 (wt.%)",
ylab = "Na2O (wt.%)",
zlab = "Fe2O3 (wt.%)",
type = "l",
radius = .05,
col = "darkgrey"
)::points3d(
rglx = glass$SiO2,
y = glass$Na2O,
z = glass$Fe2O3,
col = "darkred",
size = 5
)::view3d(zoom = .8) rgl
For grouping trivariate data, the .group_by
argument can be used if the data contains an unique grouping variable (.group_by = NULL
by default). When a grouping variable is provided, the function will compute the ellipsoid separately for each level of the factor. It’s important to note that the grouping variable should be appropriately coded as a factor before passing it to the .group_by
argument.
<- glass %>%
ellipsoid_grp confidence_ellipsoid(x = SiO2, y = Na2O, z = Fe2O3, .group_by = glassType, conf_level = 0.95)
%>% glimpse()
ellipsoid_grp #> Rows: 10,000
#> Columns: 4
#> $ x <dbl> 67.32486, 67.32486, 67.32486, 67.32486, 67.32486, 67.32486, …
#> $ y <dbl> 14.51964, 14.51964, 14.51964, 14.51964, 14.51964, 14.51964, …
#> $ z <dbl> 0.5971494, 0.5971494, 0.5971494, 0.5971494, 0.5971494, 0.597…
#> $ glassType <fct> 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, …
::setupKnitr(autoprint = TRUE)
rgl::plot3d(
rglx = ellipsoid_grp$x,
y = ellipsoid_grp$y,
z = ellipsoid_grp$z,
xlab = "SiO2 (wt.%)",
ylab = "Na2O (wt.%)",
zlab = "Fe2O3 (wt.%)",
type = "s",
radius = .03,
col = as.numeric(ellipsoid_grp$glassType)
)::points3d(
rglx = glass$SiO2,
y = glass$Na2O,
z = glass$Fe2O3,
col = as.numeric(glass$glassType),
size = 5
)::view3d(zoom = .8) rgl
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.