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Applied Supervised Learning with R

You're reading from  Applied Supervised Learning with R

Product type Book
Published in May 2019
Publisher
ISBN-13 9781838556334
Pages 502 pages
Edition 1st Edition
Languages
Concepts
Authors (2):
Karthik Ramasubramanian Karthik Ramasubramanian
Profile icon Karthik Ramasubramanian
LinkedIn
Karthik Ramasubramanian completed his M.Sc. in Theoretical Computer Science at PSG College of Technology, India, where he pioneered the application of machine learning, data mining, and fuzzy logic in his research work on computer and network security. He has over seven years' experience of leading data science and business analytics in retail, Fast-Moving Consumer Goods, e-commerce, information technology, and the hospitality industry for multinational companies and unicorn start-ups.
Read more
See other products by Karthik Ramasubramanian
Jojo Moolayil Jojo Moolayil
Profile icon Jojo Moolayil
LinkedIn
Jojo Moolayil is a data scientist, living in Bengaluru—the silicon valley of India. With over 4 years of industrial experience in Decision Science and IoT, he has worked with industry leaders on high impact and critical projects across multiple verticals. He is currently associated with GE, the pioneer and leader in data science for Industrial IoT. Jojo was born and raised in Pune, India and graduated from University of Pune with a major in information technology engineering. With a vision to solve problems at scale, Jojo found solace in decision science and learnt to solve a variety of problems across multiple industry verticals early in his career. He started his career with Mu Sigma Inc., the world's largest pure play analytics provider where he worked with the leaders of many fortune 50 clients. With the passion to solve increasingly complex problems, Jojo touch based with Internet of Things and found deep interest in the very promising area of consumer and industrial IoT. One of the early enthusiasts to venture into IoT analytics, Jojo converged his learnings from decision science to bring the problem solving frameworks and his learnings from data and decision science to IoT. To cement his foundations in industrial IoT and scale the impact of the problem solving experiments, he joined a fast growing IoT Analytics startup called Flutura based in Bangalore and headquartered in the valley. Flutura focuses exclusively on Industrial IoT and specializes in analytics for M2M data. It is with Flutura, where Jojo reinforced his problem solving skills for M2M and Industrial IoT while working for the world's leading manufacturing giant and lighting solutions providers. His quest for solving problems at scale brought the 'product' dimension in him naturally and soon he also ventured into developing data science products and platforms. After a short stint with Flutura, Jojo moved on to work with the leaders of Industrial IoT, that is, G.E. in Bangalore, where he focused on solving decision science problems for Industrial IoT use cases. As a part of his role in GE, Jojo also focuses on developing data science and decision science products and platforms for Industrial IoT.
Read more
See other products by Jojo Moolayil
View More author details
Toc

Table of Contents (12) Chapters close

Applied Supervised Learning with R
Preface
1. R for Advanced Analytics 2. Exploratory Analysis of Data 3. Introduction to Supervised Learning 4. Regression 5. Classification 6. Feature Selection and Dimensionality Reduction 7. Model Improvements 8. Model Deployment 9. Capstone Project - Based on Research Papers Appendix

Chapter 5: Classification

Activity 8: Building a Logistic Regression Model with Additional Features

  1. Create a copy of the df_new data frame into df_copy for the activity:

    df_copy <- df_new

  2. Create new features for square root, square power, and cube power transformations for each of the three selected numeric features:

    df_copy$MaxTemp2 <- df_copy$MaxTemp ^2
df_copy$MaxTemp3 <- df_copy$MaxTemp ^3
df_copy$MaxTemp_root <- sqrt(df_copy$MaxTemp)

df_copy$Rainfall2 <- df_copy$Rainfall ^2
df_copy$Rainfall3 <- df_copy$Rainfall ^3
df_copy$Rainfall_root <- sqrt(df_copy$Rainfall)

df_copy$Humidity3pm2 <- df_copy$Humidity3pm ^2
df_copy$Humidity3pm3 <- df_copy$Humidity3pm ^3
df_copy$Humidity3pm_root <- sqrt(df_copy$Humidity3pm)

  3. Divide the df_copy dataset into train and test in 70:30 ratio:

    #Setting seed for reproducibility
set.seed(2019)

#Creating a list of indexes for the training dataset (70%)
train_index <- sample(seq_len(nrow(df_copy)),floor(0.7 * nrow(df_copy)))

#Split the data into test and train
train_new <- df_copy[train_index,]
test_new <- df_copy[-train_index,]

  4. Fit the logistic regression model with the new training data:

    model <- glm(RainTomorrow~., data=train_new ,family=binomial(link='logit'))

  5. Predict the responses using the fitted model on the train data and create a confusion matrix:

    print("Training data results -")
pred_train <-factor(ifelse(predict(model,newdata=train_new,
type = "response") > 0.5,"Yes","No"))
#Create the Confusion Matrix
train_metrics <- confusionMatrix(pred_train, train_new$RainTomorrow,positive="Yes")
print(train_metrics)

    The output is as follows:

    "Training data results -"
Confusion Matrix and Statistics

          Reference
Prediction    No   Yes
       No  58330  8650
       Yes  3161  8906
                                          
               Accuracy : 0.8506          
                 95% CI : (0.8481, 0.8531)
    No Information Rate : 0.7779          
    P-Value [Acc > NIR] : < 2.2e-16       
                                          
                  Kappa : 0.5132          
 Mcnemar's Test P-Value : < 2.2e-16       
                                          
            Sensitivity : 0.5073          
            Specificity : 0.9486          
         Pos Pred Value : 0.7380          
         Neg Pred Value : 0.8709          
             Prevalence : 0.2221          
         Detection Rate : 0.1127          
   Detection Prevalence : 0.1527          
      Balanced Accuracy : 0.7279          
                                          
       'Positive' Class : Yes

  6. Predict the responses using the fitted model on test data and create a confusion matrix:

    print("Test data results -")
pred_test <-factor(ifelse(predict(model,newdata=test_new,
type = "response") > 0.5,"Yes","No"))
#Create the Confusion Matrix
test_metrics <- confusionMatrix(pred_test, test_new$RainTomorrow,positive="Yes")
print(test_metrics)

    The output is as follows:

    "Test data results -"
Confusion Matrix and Statistics

          Reference
Prediction    No   Yes
       No  25057  3640
       Yes  1358  3823
                                          
               Accuracy : 0.8525          
                 95% CI : (0.8486, 0.8562)
    No Information Rate : 0.7797          
    P-Value [Acc > NIR] : < 2.2e-16       
                                          
                  Kappa : 0.5176          
 Mcnemar's Test P-Value : < 2.2e-16       
                                          
            Sensitivity : 0.5123          
            Specificity : 0.9486          
         Pos Pred Value : 0.7379          
         Neg Pred Value : 0.8732          
             Prevalence : 0.2203          
         Detection Rate : 0.1128          
   Detection Prevalence : 0.1529          
      Balanced Accuracy : 0.7304          
                                          
       'Positive' Class : Yes

Activity 9: Create a Decision Tree Model with Additional Control Parameters

  1. Load the rpart library.

    library(rpart)

  2. Create the control object for decision tree with new values minsplit =15 and cp = 0.00:

    control = rpart.control(
    minsplit = 15, 
    cp = 0.001)

  3. Fit the tree model with the train data and pass the control object to the rpart function:

    tree_model <- rpart(RainTomorrow~.,data=train, control = control)

  4. Plot the complexity parameter plot to see how the tree performs at different values of CP:

    plotcp(tree_model)

    The output is as follows:

    Figure 5.10: Decision tree output

  5. Use the fitted model to make predictions on train data and create the confusion matrix:

    print("Training data results -")
pred_train <- predict(tree_model,newdata = train,type = "class")
confusionMatrix(pred_train, train$RainTomorrow,positive="Yes")

    The output is as follows:

    "Training data results -"
Confusion Matrix and Statistics

          Reference
Prediction    No   Yes
       No  58494  9032
       Yes  2997  8524
                                          
               Accuracy : 0.8478          
                 95% CI : (0.8453, 0.8503)
    No Information Rate : 0.7779          
    P-Value [Acc > NIR] : < 2.2e-16       
                                          
                  Kappa : 0.4979          
 Mcnemar's Test P-Value : < 2.2e-16       
                                          
            Sensitivity : 0.4855          
            Specificity : 0.9513          
         Pos Pred Value : 0.7399          
         Neg Pred Value : 0.8662          
             Prevalence : 0.2221          
         Detection Rate : 0.1078          
   Detection Prevalence : 0.1457          
      Balanced Accuracy : 0.7184          
                                          
       'Positive' Class : Yes

  6. Use the fitted model to make predictions on test data and create the confusion matrix:

    print("Test data results -")
pred_test <- predict(tree_model,newdata = test,type = "class")
confusionMatrix(pred_test, test$RainTomorrow,positive="Yes")

    The output is as follows:

    "Test data results -"
Confusion Matrix and Statistics

          Reference
Prediction    No   Yes
       No  25068  3926
       Yes  1347  3537
                                          
               Accuracy : 0.8444          
                 95% CI : (0.8404, 0.8482)
    No Information Rate : 0.7797          
    P-Value [Acc > NIR] : < 2.2e-16       
                                          
                  Kappa : 0.4828          
 Mcnemar's Test P-Value : < 2.2e-16       
                                          
            Sensitivity : 0.4739          
            Specificity : 0.9490          
         Pos Pred Value : 0.7242          
         Neg Pred Value : 0.8646          
             Prevalence : 0.2203          
         Detection Rate : 0.1044          
   Detection Prevalence : 0.1442          
      Balanced Accuracy : 0.7115          
                                          
       'Positive' Class : Yes

Activity 10: Build a Random Forest Model with a Greater Number of Trees

  1. First, import the randomForest library using the following command:

    library(randomForest)

  2. Build random forest model with all independent features available. Define the number of trees in the model to be 500.

    rf_model <- randomForest(RainTomorrow ~ . , data = train, ntree = 500, importance = TRUE, 
                                            maxnodes=60)

  3. Evaluate on training data:

    print("Training data results -")
pred_train <- predict(rf_model,newdata = train,type = "class")
confusionMatrix(pred_train, train$RainTomorrow,positive="Yes")

    The output is as follows:

    "Training data results -"
Confusion Matrix and Statistics

          Reference
Prediction    No   Yes
       No  59638 10169
       Yes  1853  7387
                                          
               Accuracy : 0.8479          
                 95% CI : (0.8454, 0.8504)
    No Information Rate : 0.7779          
    P-Value [Acc > NIR] : < 2.2e-16       
                                          
                  Kappa : 0.4702          
 Mcnemar's Test P-Value : < 2.2e-16       
                                          
            Sensitivity : 0.42077         
            Specificity : 0.96987         
         Pos Pred Value : 0.79946         
         Neg Pred Value : 0.85433         
             Prevalence : 0.22210         
         Detection Rate : 0.09345         
   Detection Prevalence : 0.11689         
      Balanced Accuracy : 0.69532         
                                          
       'Positive' Class : Yes

  4. Evaluate on test data:

    print("Test data results -")
pred_test <- predict(rf_model,newdata = test,type = "class")
confusionMatrix(pred_test, test$RainTomorrow,positive="Yes")

    The output is as follows:

    "Test data results -"
Confusion Matrix and Statistics

          Reference
Prediction    No   Yes
       No  25604  4398
       Yes   811  3065
                                          
               Accuracy : 0.8462          
                 95% CI : (0.8424, 0.8501)
    No Information Rate : 0.7797          
    P-Value [Acc > NIR] : < 2.2e-16       
                                          
                  Kappa : 0.4592          
 Mcnemar's Test P-Value : < 2.2e-16       
                                          
            Sensitivity : 0.41069         
            Specificity : 0.96930         
         Pos Pred Value : 0.79076         
         Neg Pred Value : 0.85341         
             Prevalence : 0.22029         
         Detection Rate : 0.09047         
   Detection Prevalence : 0.11441         
      Balanced Accuracy : 0.69000         
                                          
       'Positive' Class : Yes
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Authors (2)

Left arrow icon
Profile icon Karthik Ramasubramanian
LinkedIn
Karthik Ramasubramanian completed his M.Sc. in Theoretical Computer Science at PSG College of Technology, India, where he pioneered the application of machine learning, data mining, and fuzzy logic in his research work on computer and network security. He has over seven years' experience of leading data science and business analytics in retail, Fast-Moving Consumer Goods, e-commerce, information technology, and the hospitality industry for multinational companies and unicorn start-ups.
Read more
See other products by Karthik Ramasubramanian
Profile icon Jojo Moolayil
LinkedIn
Jojo Moolayil is a data scientist, living in Bengaluru—the silicon valley of India. With over 4 years of industrial experience in Decision Science and IoT, he has worked with industry leaders on high impact and critical projects across multiple verticals. He is currently associated with GE, the pioneer and leader in data science for Industrial IoT. Jojo was born and raised in Pune, India and graduated from University of Pune with a major in information technology engineering. With a vision to solve problems at scale, Jojo found solace in decision science and learnt to solve a variety of problems across multiple industry verticals early in his career. He started his career with Mu Sigma Inc., the world's largest pure play analytics provider where he worked with the leaders of many fortune 50 clients. With the passion to solve increasingly complex problems, Jojo touch based with Internet of Things and found deep interest in the very promising area of consumer and industrial IoT. One of the early enthusiasts to venture into IoT analytics, Jojo converged his learnings from decision science to bring the problem solving frameworks and his learnings from data and decision science to IoT. To cement his foundations in industrial IoT and scale the impact of the problem solving experiments, he joined a fast growing IoT Analytics startup called Flutura based in Bangalore and headquartered in the valley. Flutura focuses exclusively on Industrial IoT and specializes in analytics for M2M data. It is with Flutura, where Jojo reinforced his problem solving skills for M2M and Industrial IoT while working for the world's leading manufacturing giant and lighting solutions providers. His quest for solving problems at scale brought the 'product' dimension in him naturally and soon he also ventured into developing data science products and platforms. After a short stint with Flutura, Jojo moved on to work with the leaders of Industrial IoT, that is, G.E. in Bangalore, where he focused on solving decision science problems for Industrial IoT use cases. As a part of his role in GE, Jojo also focuses on developing data science and decision science products and platforms for Industrial IoT.
Read more
See other products by Jojo Moolayil
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