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data(diamonds, package = 'ggplot2')
<- data.frame(diamonds)
diamonds head(diamonds)
## carat cut color clarity depth table price x y z
## 1 0.23 Ideal E SI2 61.5 55 326 3.95 3.98 2.43
## 2 0.21 Premium E SI1 59.8 61 326 3.89 3.84 2.31
## 3 0.23 Good E VS1 56.9 65 327 4.05 4.07 2.31
## 4 0.29 Premium I VS2 62.4 58 334 4.20 4.23 2.63
## 5 0.31 Good J SI2 63.3 58 335 4.34 4.35 2.75
## 6 0.24 Very Good J VVS2 62.8 57 336 3.94 3.96 2.48
nrow(diamonds)
## [1] 53940
In this example we sample the diamonds
data set and pick a subset of 100 individuals using the cLHS method. To reduce the length of the optimisation step to 1000 iterations to save computing time. This is controlled through the iter
option. The progress bar is disabled because it doesn’t renders well in the vignette. By default, the index of the selected individuals in the original object are returned.
library(clhs)
<- clhs(diamonds, size = 100, use.cpp = TRUE)
res str(res)
## num [1:100] 15434 51042 213 32976 21474 ...
(work in progress)
This functionality is controlled by the include
option, which can be used to specify the row indices of samples that needs to be included in the final sampled set.
suppressWarnings(RNGversion("3.5.0"))
set.seed(1)
<- data.frame(
candidates_samples x = runif(500),
y = rnorm(500, mean = 0.5, sd = 0.5)
)
<- data.frame(
existing_samples x = runif(5),
y = runif(5)
)
<- clhs(
res x = rbind(existing_samples, candidates_samples),
size = 10,
include = 1:5
)
In this case we have 5 individuals (red triangles) that need to be retained in the selected set of samples:
## Warning in (function (kind = NULL, normal.kind = NULL, sample.kind = NULL) :
## non-uniform 'Rounding' sampler used
The red individuals are the selected samples. Note the triangles showing the samples that were compulsory:
(work in progress)
$cost <- runif(nrow(diamonds))
diamonds<- clhs(diamonds, size = 100, progress = FALSE, iter = 1000, cost = 'cost') res_cost
(work in progress)
If you want to report on the cLHS results, e.g. plot the evolution of the objective function, or compare the distribution of attributes in the initial object and in the sampled subset, you need to switch the simple
option to FALSE
. Instead f simply returning a numeric vector giving the index of the sampled individuals in the original object, a specific, more complex will be returned. This object can be handled by a specific plot
method:
<- clhs(diamonds, size = 100,cost = "cost", simple = FALSE, progress = FALSE, iter = 2000)
res plot(res,c("obj","cost"))
The default plotting method plots the evolution of the objective function with the number of iterations. However, you can get more details using the modes
option, which controls which indicators are plotted. Three modes
can be simultaneously plotted:
obj
: evolution of the objective function (default)cost
: evolution of the cost function (if present)dens
OR box
OR hist
: comparison of the distributions of each attribute in the original object and in the proposed sample, respectively using probability density functions, boxplots or histograms. Note that categorical attributes are always reported using dotplots.These modes should be given as a vector of characters.
<- clhs(diamonds, size = 100, progress = FALSE, iter = 1000, cost = 'cost', simple = FALSE, use.cpp = F)
res_cost plot(res_cost, c('obj', 'cost'))
plot(res_cost, c('obj', 'cost', 'box'))
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.
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