Plot Information Content
Creates a plot of the Information Content Features.
plotInformationContent(feat.object, control)
feat.object: [FeatureObject]
A feature object as created by createFeatureObject.
control: [list]
A list, which stores additional control arguments. For further information, see details.
[plot].
A plot visualizing the Information Content Features.
Possible control arguments are:
Computation of Information Content Features:
ic.epsilon: Epsilon values as described in section V.A of Munoz et al. (2015). The default is c(0, 10^(seq(-5, 15, length.out = 1000)).
ic.sorting: Sorting strategy, which is used to define the tour through the landscape. Possible values are "nn"
(= default) and "random".
ic.sample.generate: Should the initial design be created using a LHS? The default is FALSE, i.e. the initial design from the feature object will be used.
ic.sample.dimensions: Dimensions of the initial sample, if created using a LHS. The default is feat.object$dimension.
ic.sample.size: Size of the initial sample, if created using a LHS. The default is 100 * feat.object$dimension.
ic.sample.lower: Lower bounds of the initial sample, if created with a LHS. The default is 100 * feat.object$lower.
ic.sample.upper: Upper bounds of the initial sample, if created with a LHS. The default is 100 * feat.object$upper.
ic.show_warnings: Should warnings be shown, when possible duplicates are removed? The default is FALSE.
ic.seed: Possible seed, which can be used for making your experiments reproducable. Per default, a random number will be drawn as seed.
ic.nn.start: Which observation should be used as starting value, when exploring the landscape with the nearest neighbour approach. The default is a randomly chosen integer value.
ic.nn.neighborhood: In order to provide a fast computation of the features, we use RANN::nn2 for computing the nearest neighbors of an observation. Per default, we consider the 20L closest neighbors for finding the nearest not-yet-visited observation. If all of those neighbors have been visited already, we compute the distances to the remaining points separately.
ic.settling_sensitivity: Threshold, which should be used for computing the settling sensitivity . The default is 0.05 (as used in the corresponding paper).
ic.info_sensitivity: Portion of partial information sensitivity. The default is 0.5 (as used in the paper).
Plot Control:
ic.plot.{xlim, ylim, las, xlab, ylab}: Settings of the plot in general, cf. plot.default.
ic.plot.{xlab_line, ylab_line}: Position of xlab
and ylab.
ic.plot.ic.{lty, pch, cex, pch_col}: Type, width and colour of the line visualizing the Information Content .
ic.plot.max_ic.{lty, pch, lwd, cex, line_col, pch_col}: Type, size and colour of the line and point referring to the Maximum Information Content .
ic.plot.settl_sens.{pch, cex, col}: Type, size and colour of the point referring to the Settling Sensitivity .
ic.plot.partial_ic: Should the information of the partial information content be plotted as well? The default is TRUE.
ic.plot.partial_ic.{lty, pch, lwd, cex, line_col, pch_col}: Type, size and colour of the line and point referring to the Initial Partial Information and the Partial Information Content .
ic.plot.half_partial.{pch, cex, pch_col}: Type, size and colour of the point referring to the Relative Partial Information Sensitivity .
ic.plot.half_partial.{lty, line_col, lwd}_{h, v}: Type, colour and width of the horizontal and vertical lines referring to the Relative Partial Information Sensitivity .
ic.plot.half_partial.text_{cex, col}: Size and colour of the text at the horizontal line of the Relative Partial Information Sensitivity .
ic.plot.legend_{descr, points, lines, location}: Description, points, lines and location of the legend.
# (1) create a feature object: X = t(replicate(n = 2000, expr = runif(n = 5, min = -10, max = 10))) feat.object = createFeatureObject(X = X, fun = function(x) sum(x^2)) # (2) plot its information content features: plotInformationContent(feat.object)