Integration of tau in compare and PValue debug

2022-05-10 11:21:14 +02:00 · 2022-05-10 11:21:14 +02:00 · 864fd506a1
parent 4673fb8fa7
commit 864fd506a1
1 changed files with 22 additions and 17 deletions
--- a/Comparaison_of_methods.rmd
+++ b/Comparaison_of_methods.rmd
@ -12,6 +12,7 @@ library("latex2exp")
 library("Rcpp")
 library("caret")
 library("ROCR")
+library("pROC")
 ```

 ## 1. Proposition for simulations under $\mathcal{H}_1$
@ -120,17 +121,18 @@ CDF=Plot_CDF(lambda0,n_sample,T,tau)
 Compute $p$-value for scan statistic of `ppH1` with `Emp`:
 ```{r}
 PValue <- function(Emp,ppH, T, tau){
-    scanH1=ScanStat(ppH,T,tau)[2]
-    index_scanH1=ScanStat(ppH,T,tau)[1]
-    index=Emp$index_scan
+    SS = ScanStat(ppH,T,tau)
+    scanH = SS[2]
+    index_scanH = SS[1]
+    index = Emp$index_scan
    n=length(index)
-    if (scanH1< min(Emp$index_scan)){
-        return (c(scanH1,1,index_scanH1))
+    if (scanH< min(Emp$index_scan)){
+        return (c(scanH,1,index_scanH))
        } else{
-            if(min(Emp$index_scan)<scanH1 && scanH1<=max(Emp$index_scan)){
-                return(c(scanH1,1-Emp$cdf[scanH1-min(Emp$index_scan)+1],index_scanH1))
-            } else{return (c(scanH1,0,index_scanH1))}}
-}
+            if(min(Emp$index_scan)<scanH && scanH<=max(Emp$index_scan)){
+                return(c(scanH,1-Emp$cdf[scanH-min(Emp$index_scan)],index_scanH))
+            } else{return (c(scanH,0,index_scanH))}}
+    }
 ```

 ### 2.2. Simulation under $\mathcal{H}_0$ and computation of p-values
@ -382,7 +384,7 @@ CompareMethods <- function(lambda0, lambda1, NbSeq, T, tau){
    if (lambda0 < lambda1){
        
        cat("For T = ", T, ", Nb = ", NbSeq, ", lambda0 = ", lambda0, " and lambda1 = ", lambda1, ":\n", sep = "")
-        tbe0 = vector("list", length = NbSeq)
+        tbe0 = vector("list",length=NbSeq)
        pp0 =  vector("list", length = NbSeq)
        pp1 =  vector("list", length = NbSeq)
        tbe1 = vector("list", length =  NbSeq)
@ -396,7 +398,7 @@ CompareMethods <- function(lambda0, lambda1, NbSeq, T, tau){
            tbe0[[i]] = tbei
            
            #Simulation for sequences under H1
-            ppj1 = SimulationH1(lambda0, lambda1, T, tau)
+            ppj1 = SimulationH1(lambda0, lambda1, T, 3)
            nj = length(ppj1)
            pp1[[i]] = ppj1
            tbej = ppj1[2:nj]-ppj1[1:nj-1]
@ -404,13 +406,13 @@ CompareMethods <- function(lambda0, lambda1, NbSeq, T, tau){
        }
        
        #cat("- Empiric version:\n")
-        Score = ScoreDistribEmpiric(lambda0, lambda1, NbSeq, T)
+        Score = ScoreDistribEmpiric(lambda0, lambda1, 10**4, T)
        LS_H0 = LocalScoreMC(lambda0, lambda1, NbSeq, T, Score$Score_X, Score$P_X, tbe0)
        LS_H1 = LocalScoreMC(lambda0, lambda1, NbSeq, T, Score$Score_X, Score$P_X, tbe1)
        LS_obtained = c(LS_H0$class, LS_H1$class)
        options(warn = -1) 
          
-        Emp = EmpDistrib(lambda0,n_sample,T,tau)
+        Emp = EmpDistrib(lambda0,10**4,T,tau)
        SS_H0 = ScanStatMC(NbSeq, T, tau, Emp, pp0)
        SS_H1 = ScanStatMC(NbSeq, T, tau, Emp, pp1)
        SS_obtained = c(SS_H0$class, SS_H1$class)
@ -420,24 +422,27 @@ CompareMethods <- function(lambda0, lambda1, NbSeq, T, tau){
        theoretical_results_SS = c(rep(0,length(SS_H0$num)), rep(1,length(SS_H1$num)))
        print(confusionMatrix(as.factor(SS_obtained), as.factor(theoretical_results_SS),
                              dnn = c("Prediction", "Reference"))$table)
+        roc_SS = roc(theoretical_results_SS, SS_obtained)
+        areaSS = auc(roc_SS)
+        cat("Area under the ROC curve for SS = ", areaSS, "\n")
          
        cat("--- Confusion matrix for local score method --- \n")
        theoretical_results_LS = c(rep(0,length(LS_H0$num)), rep(1,length(LS_H1$num)))
        print(confusionMatrix(as.factor(LS_obtained), as.factor(theoretical_results_LS),
                                dnn = c("Prediction", "Reference"))$table)
          
-        #cat("--- Coube ROC associé")
        title_ROC = TeX(paste(r'(ROC curve for $H_0: \lambda_0=$)', lambda0, 
                                r'(against $H_1: \lambda_0=$)', lambda1))
        pred.SS = prediction(theoretical_results_SS,SS_obtained)
        pred.LS = prediction(theoretical_results_LS,LS_obtained)
        perf.SS = performance(pred.SS,"tpr", "fpr")
        perf.LS = performance(pred.LS,"tpr", "fpr")
-        #plot(perf.SS, lty=1, col="coral")
        par(new=T)
-        #plot(perf.LS, lty=2, col="coral", main=title_ROC)
+        roc_LS = roc(theoretical_results_LS, LS_obtained)
+        areaLS = auc(roc_LS)
+        cat("Area under the ROC curve for LS = ", areaLS, "\n")
        cat("-----------------------------------\n")
-        
+        options(warn = -1)        
        
        result <- c('performance.SS'= perf.SS,'performance.LS'= perf.LS)
        return(result)