With gMOIP
you can
make plots of the criterion space for tri-objective models (linear
programming (LP), integer linear programming (ILP), or mixed integer
linear programming (MILP)). This vignette gives examples on how to make
plots of the criterion space.
First we load the package:
The criterion space can be plotted for tri-objective models. An example with many unsupported:
view <- matrix( c(0.333316594362259, 0.938472270965576, -0.0903875231742859, 0, 0.83994072675705, -0.339126199483871, -0.423665106296539, 0, -0.428250730037689, 0.0652943551540375, -0.901297807693481, 0, 0, 0, 0, 1), nc = 4)
loadView(v = view)
set.seed(1234)
pts <- genNDSet(3, 20, argsSphere = list(below = FALSE), dubND = FALSE)
pts <- classifyNDSet(pts[,1:3])
head(pts)
#> z1 z2 z3 se sne us cls
#> 1 48 87 17 TRUE FALSE FALSE se
#> 2 14 59 83 TRUE FALSE FALSE se
#> 3 70 75 12 TRUE FALSE FALSE se
#> 4 98 36 55 FALSE FALSE TRUE us
#> 5 91 40 24 TRUE FALSE FALSE se
#> 6 34 93 31 TRUE FALSE FALSE se
ini3D(argsPlot3d = list(xlim = c(min(pts[,1])-2,max(pts[,1])+2),
ylim = c(min(pts[,2])-2,max(pts[,2])+2),
zlim = c(min(pts[,3])-2,max(pts[,3])+2)))
plotPoints3D(pts[pts$se,1:3], argsPlot3d = list(col = "red"))
plotPoints3D(pts[!pts$sne,1:3], argsPlot3d = list(col = "black"))
plotPoints3D(pts[!pts$us,1:3], argsPlot3d = list(col = "blue"))
plotCones3D(pts[,1:3], rectangle = TRUE, argsPolygon3d = list(alpha = 1, color = "cornflowerblue"))
plotHull3D(pts[,1:3], addRays = TRUE, argsPolygon3d = list(alpha = 0.25, color = "red"), useRGLBBox = TRUE)
finalize3D(argsAxes3d = list(edges = "bbox"))
Example with many supported:
loadView(v = view)
pts <- genNDSet(3, 10, argsSphere = list(below = TRUE), dubND = FALSE)
pts <- classifyNDSet(pts[,1:3])
ini3D(argsPlot3d = list(xlim = c(min(pts[,1])-2,max(pts[,1])+2),
ylim = c(min(pts[,2])-2,max(pts[,2])+2),
zlim = c(min(pts[,3])-2,max(pts[,3])+2)))
plotPoints3D(pts[pts$se,1:3], argsPlot3d = list(col = "red"))
plotPoints3D(pts[!pts$sne,1:3], argsPlot3d = list(col = "black"))
plotPoints3D(pts[!pts$us,1:3], argsPlot3d = list(col = "blue"))
plotCones3D(pts[,1:3], rectangle = TRUE, argsPolygon3d = list(alpha = 1, color = "cornflowerblue"))
plotHull3D(pts[,1:3], addRays = TRUE, argsPolygon3d = list(alpha = 0.25, color = "red"), useRGLBBox = TRUE)
finalize3D(argsAxes3d = list(edges = "bbox"))
Non-dominated points can be classified using
classifyNDSet
:
pts <- matrix(c(0,0,1, 0,1,0, 1,0,0, 0.5,0.2,0.5, 0.25,0.5,0.25), ncol = 3, byrow = TRUE)
open3d()
#> null
#> 32
ini3D(argsPlot3d = list(xlim = c(min(pts[,1])-2,max(pts[,1])+2),
ylim = c(min(pts[,2])-2,max(pts[,2])+2),
zlim = c(min(pts[,3])-2,max(pts[,3])+2)))
plotHull3D(pts, addRays = TRUE, argsPolygon3d = list(alpha = 0.5), useRGLBBox = TRUE)
pts <- classifyNDSet(pts[,1:3])
pts
#> z1 z2 z3 se sne us cls
#> 1 0.00 0.0 1.00 TRUE FALSE FALSE se
#> 2 0.00 1.0 0.00 TRUE FALSE FALSE se
#> 3 1.00 0.0 0.00 TRUE FALSE FALSE se
#> 4 0.50 0.2 0.50 FALSE FALSE TRUE us
#> 5 0.25 0.5 0.25 FALSE TRUE FALSE sne
plotPoints3D(pts[pts$se,1:3], argsPlot3d = list(col = "red"))
plotPoints3D(pts[!pts$sne,1:3], argsPlot3d = list(col = "black"))
plotPoints3D(pts[!pts$us,1:3], argsPlot3d = list(col = "blue"))
plotCones3D(pts[,1:3], rectangle = TRUE, argsPolygon3d = list(alpha = 1))
finalize3D()
rglwidget(reuse = F)
pts <- genNDSet(3,20, dubND = FALSE)[,1:3]
open3d()
#> null
#> 35
ini3D(argsPlot3d = list(xlim = c(0,max(pts$z1)+2),
ylim = c(0,max(pts$z2)+2),
zlim = c(0,max(pts$z3)+2)))
plotHull3D(pts, addRays = TRUE, argsPolygon3d = list(alpha = 0.5))
pts <- classifyNDSet(pts[,1:3])
pts
#> z1 z2 z3 se sne us cls
#> 1 3 62 45 TRUE FALSE FALSE se
#> 2 76 40 9 FALSE FALSE TRUE us
#> 3 23 45 10 TRUE FALSE FALSE se
#> 4 29 66 9 FALSE FALSE TRUE us
#> 5 22 11 60 TRUE FALSE FALSE se
#> 6 46 12 20 TRUE FALSE FALSE se
#> 7 49 2 39 TRUE FALSE FALSE se
#> 8 9 27 64 TRUE FALSE FALSE se
#> 9 32 10 29 TRUE FALSE FALSE se
#> 10 8 39 29 TRUE FALSE FALSE se
#> 11 37 5 36 TRUE FALSE FALSE se
#> 12 45 2 61 TRUE FALSE FALSE se
#> 13 19 30 18 TRUE FALSE FALSE se
#> 14 30 7 38 TRUE FALSE FALSE se
#> 15 11 33 26 TRUE FALSE FALSE se
#> 16 46 2 43 TRUE FALSE FALSE se
#> 17 12 21 39 TRUE FALSE FALSE se
#> 18 45 21 11 TRUE FALSE FALSE se
#> 19 21 26 20 TRUE FALSE FALSE se
#> 20 31 43 5 TRUE FALSE FALSE se
plotPoints3D(pts[pts$se,1:3], argsPlot3d = list(col = "red"))
plotPoints3D(pts[!pts$sne,1:3], argsPlot3d = list(col = "black"))
plotPoints3D(pts[!pts$us,1:3], argsPlot3d = list(col = "blue"))
finalize3D()
rglwidget(reuse = F)
The classification is done using the qhull
algorithm
that find the convex hull of the points including the rays. If a vertex
then if must be supported extreme. Next we use the inHull
algorithm to find out if the remaining are on the border or not
(supported non-extreme and unsupported).