4

I'm trying to just extract the Accuracy value from the confusionMatrix() output -- I've tried using the following:

    cl <- train.data[,1]
    knn.res <- knn.cv(train.data[,c(2:783)], cl, k = i, algorithm = "cover_tree")
    confus.knn.res <- confusionMatrix(knn.res, train.data[,1])
    confus.knn.res
    k.accuracy[which(k.accuracy[,2]==i),2] <- confus.knn.res$Accuracy

though just calling it as $Accuracy doesn't seem to work.

2
  • We will need a reproducible example or at least str of the data. We don't know if result of confusionMatrix is a data.frame or a list with column/element called Accuracy. May 2, 2014 at 17:36
  • Yeah, that's what I'm having trouble with as well. The output itself gives me a nice list of descriptive stats, but I'm not sure how to specifically access the Accuracy value. Here's an example with the iris data -- inside-r.org/node/86995
    – orange1
    May 2, 2014 at 18:10

4 Answers 4

8

One of the values of confusionMatrix() object is overall -- the first index of overall is the accuracy value. Therefore, it can be called as confus.knn.res$overall[1].

1
  • rfClassifier = randomForest(x = training_set[-1], y = training_set$DV1, ntree = 100) rfPredicted = predict(rfClassifier, newdata = test_set[-1]) # Confusion Matrix rfConfMatrix = table(true = test_set[ , 1], pred = rfPredicted) rfConfMatrix$overall[1] # Error in rfConfMatrix$overall : $ operator is invalid for atomic vectors
    – Sujoy
    Dec 6, 2020 at 20:40
5

Since overall is a named vector, the user-friendly way of doing this would be confus.knn.res$overall["Accuracy"]

0

Although i am answering very late but still, it can help others to calculate all the parameters required. it can be done by retrieving values from confusion matrix and calculating by the following code:

    conf_train<-table(training$Activity, predictions) #from predicted values


    conf_train<-confusionMatrix(fit.knn,norm = "none")  
#from cross validation of training set, internal
RF.statistics_train = matrix(c(0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0), nrow=3, ncol=5) 
colnames(RF.statistics_train )<- c('Precision', 'Sensitivity', 'Specificity', 'Accuracy', 'MCC')
rownames(RF.statistics_train) <- c('Class1', 'Class2', 'Class3')
for(i in 1:3)
{
  TP=conf_train$table[i,i]
  TN=0
  FP=0
  FN=0
  for(j in 1:3)
  {
    if(i!=j)
    {
      FP = FP + conf_train$table[j,i]
      FN = FN + conf_train$table[i,j]
    }
    for(k in 1:3)
    {
      if(i!=j && i!=k)
      {
        TN = TN + conf_train$table[j,k]
      }
    }
  }
  #  statistics[i,1] = conf_test[i,i]/col_total[i]
  #  statistics[i,2] = conf_test[i,i]/row_total[i]
  RF.statistics_train[i,1] = TP/(TP+FP)
  RF.statistics_train[i,2] = TP/(TP+FN)
  RF.statistics_train[i,3] = TN/(TN+FP)
  RF.statistics_train[i,4] = (TP+TN)/(TP+TN+FP+FN)
  RF.statistics_train[i,5] = (TP*TN-FP*FN)/sqrt((TP+FP)*(TP+FN)*(TN+FP)*(TN+FN))`
}

The code is for three class matrix but you can modify accordingly

0

If one only requires the output values (i.e. Overall accuracy value) double brackets should be applied as below:

confus.knn.res$overall[[1]] #Overall accuracy is the first object!

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