## ----preliminary, echo=FALSE, results="hide", message=FALSE, warning=FALSE, fig.keep="none"---- options(width=60, prompt="R> ", continue=" ", useFancyQuotes=FALSE, digits=3) library(WeightedCluster) library(TraMineR) library(vegan) library(knitr) library(isotone) hook_setwidth <- local({ default.width <- 0 function(before, options, envir){ if(before) { default.width <<- getOption("width") options(width = options$consolew) } else{ options(width = default.width) } return(NULL) } }) knit_hooks$set(consolew =hook_setwidth) ##knit_hooks$set(crop = hook_pdfcrop) knit_hooks$set(small.mar = function(before, options, envir) { if (before) par(mar=c(2.1, 4.1, 4.1, 1.1)) # smaller margin on top and right }) opts_knit$set(concordance=TRUE) opts_chunk$set(message=FALSE, prompt=TRUE, echo=TRUE, dev="pdf", comment=NA, small.mar=TRUE, fig.align="center", fig.path="graphics/WC-", out.width=".8\\linewidth", size="small") ## knit_hooks$set(error = function(x, options) stop(x)) ## knit_hooks$set(warning = function(x, options) stop("Warnings: ", x)) ## ----WCload, eval=FALSE, fig.keep="none"------------------ # install.packages("WeightedCluster") # library(WeightedCluster) ## ----distcompute, tidy=FALSE, fig.keep="none"------------- data(mvad) mvad.alphabet <- c("employment", "FE", "HE", "joblessness", "school", "training") mvad.labels <- c("Employment", "Further Education", "Higher Education", "Joblessness", "School", "Training") mvad.scodes <- c("EM", "FE", "HE", "JL", "SC", "TR") mvadseq <- seqdef(mvad[, 17:86], alphabet = mvad.alphabet, states = mvad.scodes, labels = mvad.labels, weights=mvad$weight, xtstep=6) ## Defining the custom cost matrix subm.custom <- matrix( c(0, 1, 1, 2, 1, 1, 1, 0, 1, 2, 1, 2, 1, 1, 0, 3, 1, 2, 2, 2, 3, 0, 3, 1, 1, 1, 1, 3, 0, 2, 1, 2, 2, 1, 2, 0), nrow = 6, ncol = 6, byrow = TRUE) ## Computing the OM dissimilarities mvaddist <- seqdist(mvadseq, method="OM", indel=1.5, sm=subm.custom) ## ----hclustcompute, fig.keep="none"----------------------- wardCluster <- hclust(as.dist(mvaddist), method="ward", members=mvad$weight) ## ----as.seqtreecompute, fig.keep="none"------------------- wardTree <- as.seqtree(wardCluster, seqdata=mvadseq, diss=mvaddist, ncluster=6) ## ----seqtreedisplay, echo=FALSE, results="hide", eval=FALSE, fig.keep="none"---- # seqtreedisplay(wardTree, type="d", border=NA, filename="wardtree.png", showdepth=TRUE, showtree=FALSE) ## ----seqtreedisplay-fake, eval=FALSE, echo=TRUE, results="hide", fig.keep="none"---- # seqtreedisplay(wardTree, type="d", border=NA, showdepth=TRUE) ## ----cutreecompute, fig.keep="none"----------------------- clust4 <- cutree(wardCluster, k=4) ## ----seqdplot-4clust, fig.width=7, fig.height=5----------- seqdplot(mvadseq, group=clust4, border=NA) ## ----wcKMedoids-compute, fig.keep="none"------------------ pamclust4 <- wcKMedoids(mvaddist, k=4, weights=mvad$weight) ## ----pamclust4-plot, fig.width=7, fig.height=5------------ seqdplot(mvadseq, group=pamclust4$clustering, border=NA) ## ----wcKMedoids-print, fig.keep="none"-------------------- print(mvadseq[unique(pamclust4$clustering), ], format="SPS") ## ----wcKMedoids-compute4-ward, fig.keep="none"------------ pamwardclust4 <- wcKMedoids(mvaddist, k=4, weights=mvad$weight, initialclust=wardCluster) ## ----pamwardclust4-plot-ward, fig.width=7, fig.height=5---- seqdplot(mvadseq, group=pamwardclust4$clustering, border=NA) ## ----wcClusterQuality-compute, echo=2:3, consolew=70, fig.keep="none"---- options(digits=2) clustqual4 <- wcClusterQuality(mvaddist, clust4, weights=mvad$weight) clustqual4$stats options(digits=3) ## ----wcClusterQuality-computeasw, fig.keep="none"--------- clustqual4$ASW ## ----silhouette-indexplot, echo=2:3, dev="png", dpi=600, fig.width=7, fig.height=5---- par(mar=c(2.1, 4.1, 4.1, 1.1)) sil <- wcSilhouetteObs(mvaddist, clust4, weights=mvad$weight, measure="ASWw") seqIplot(mvadseq, group=clust4, sortv=sil) ## ----wcClusterQuality-compute9-clustqual4pam, echo=2, fig.keep="none"---- options(digits=1) pamclust4$stats options(digits=3) ## ----wcRange-compute, fig.keep="none"--------------------- wardRange <- as.clustrange(wardCluster, diss=mvaddist, weights=mvad$weight, ncluster=20) summary(wardRange, max.rank=2) ## ----wcRange-plot, fig.width=8, fig.height=3.5------------ plot(wardRange, stat=c("ASWw", "HG", "PBC", "HC")) ## ----wcRange-plotzscore, fig.width=8, fig.height=3.5------ plot(wardRange, stat=c("ASWw", "HG", "PBC", "HC"), norm="zscore") ## ----wardClust6-plot, fig.width=7, fig.height=6----------- seqdplot(mvadseq, group=wardRange$clustering$cluster6, border=NA) ## ----wcKMedRange-compute, echo=TRUE, fig.keep="none"------ pamRange <- wcKMedRange(mvaddist, kvals=2:20, weights=mvad$weight) summary(pamRange, max.rank=2) ## ----cluster-naming, echo=TRUE, fig.keep="none"----------- mvad$pam4 <- factor(pamclust4$clustering, levels=c(66, 467, 607, 641), labels=c("Appr.-Empl.", "Ecole-Empl.", "Ecole sup.", "Sans empl.")) ## ----auto-cluster-naming, echo=TRUE, consolew=80, fig.keep="none"---- mvad$pam4.auto <- seqclustname(mvadseq, pamclust4$clustering, mvaddist) table( mvad$pam4.auto, mvad$pam4) ## ----mds-compute, echo=FALSE, fig.keep="none"------------- worsq <- wcmdscale(mvaddist, w=mvad$weight, k=2) mvad$test <- rep(-1, nrow(mvad)) for(clust in unique(pamclust4$clustering)){ cond <- pamclust4$clustering == clust values <- worsq[cond, 2] mvad$test[cond] <- as.integer(values > weighted.median(values, w=mvad$weight[cond])) } mvad$test <- factor(mvad$test, levels=0:1, labels=c("non-test", "test")) ## ----testdplot, fig.width=10, fig.height=4.5-------------- seqdplot(mvadseq, group=mvad$test, border=NA) ## ----testiplot-chisq, fig.keep="none"--------------------- tb <- xtabs(weight~test+pam4, data=mvad) chisq.test(tb) ## ----testdplot-EE, fig.width=10, fig.height=4.5----------- EcoleEmploi <- mvad$pam4=="Ecole-Empl." seqdplot(mvadseq[EcoleEmploi, ], group=mvad$test[EcoleEmploi], border=NA) ## ----testiplot-dissassoc, fig.keep="none"----------------- set.seed(1) dsa <- dissassoc(mvaddist, mvad$test, weights=mvad$weight, weight.permutation="diss", R=5000) print(dsa$stat) ## ----seqtree-link-covar, echo=FALSE, results="hide", eval=FALSE, fig.keep="none"---- # set.seed(1) # tree <- seqtree(mvadseq~gcse5eq+Grammar+funemp, data=mvad, diss=mvaddist, weight.permutation="diss") # seqtreedisplay(tree, type="d", border=NA, filename="seqtree.png", showtree=FALSE) ## ----seqtree-link-covar-fake, eval=FALSE, echo=TRUE, results="hide", fig.keep="none"---- # tree <- seqtree(mvadseq~gcse5eq+Grammar+funemp, data=mvad, diss=mvaddist, weight.permutation="diss") # seqtreedisplay(tree, type="d", border=NA) ## ----wcAggregateCases, echo=TRUE, fig.keep="none"--------- ac <- wcAggregateCases(mvad[, 17:86], weights=mvad$weight) ac ## ----wcAggregateCases-seqdef, echo=TRUE, fig.keep="none"---- uniqueSeq <- seqdef(mvad[ac$aggIndex, 17:86], alphabet = mvad.alphabet, states = mvad.scodes, labels = mvad.labels, weights=ac$aggWeights) ## ----wcAggregateCases-wckmedoids, echo=TRUE, fig.keep="none"---- mvaddist2 <- seqdist(uniqueSeq, method="OM", indel=1.5, sm=subm.custom) pamclust4ac <- wcKMedoids(mvaddist2, k=4, weights=ac$aggWeights) ## ----wcAggregateCases-wckmedoids-back, echo=TRUE, fig.keep="none"---- mvad$acpam4 <- pamclust4ac$clustering[ac$disaggIndex] ## ----wcAggregateCases-wckmedoids-table, echo=TRUE, fig.keep="none"---- table(mvad$pam4, mvad$acpam4) ## ----perf-loadsimul, echo=FALSE, results="hide", message=FALSE, fig.keep="none"---- load(file="randB.RData") randB$nnn <- factor(randB$n, levels=c(200, 500, 1000, 2000), labels=c("n=200", "n=500", "n=1000", "n=2000")) library(lattice) ## ----perf-nbyk-plot-time, fig.width=8, fig.height=3.5, echo=FALSE---- print(xyplot(ClusterTime~k|nnn, data=randB, groups=test, type="l", auto.key = list(points=F, lines=T,corner = c(0, 0.8), cex=.9, size=2), scales=list(y = list(log = TRUE)), ylab="Temps de calcul", xlab="Nombre de groupes")) ## ----perf-nbyk-plot, fig.width=8, fig.height=3.5, echo=FALSE---- print(xyplot(relative.tot~k|nnn, data=randB, groups=test, type="l", auto.key = list(points=F, lines=T,corner = c(0, 0.8), size=2, cex=.9), ylab="Temps relatif", xlab="Nombre de groupes")) ## ----mdscomputeannexe, echo=TRUE, results="hide", fig.keep="none"---- library(vegan) worsq <- wcmdscale(mvaddist, w=mvad$weight, k=2) ## ----mdscomputeannexesecond, echo=TRUE, results="hide", fig.keep="none"---- library(isotone) mvad$test <- rep(-1, nrow(mvad)) for(clust in unique(pamclust4$clustering)){ cond <- pamclust4$clustering == clust values <- worsq[cond, 2] mvad$test[cond] <- values> weighted.median(values, w=mvad$weight[cond]) } mvad$test <- factor(mvad$test, levels=0:1, labels=c("non-test", "test"))