Introduction to Machine Learning in R Last Updated : 12 Jun, 2025 Comments Improve Suggest changes Like Article Like Report Machine learning in R allows data scientists, analysts and statisticians to build predictive models, uncover patterns and gain insights using powerful statistical techniques combined with modern machine learning algorithms. R provides a comprehensive environment with numerous built-in functions and dedicated packages to handle the entire machine learning workflow from data preparation and model building to evaluation and visualization. With its rich ecosystem of libraries and its strong foundation in statistics, R is a highly effective tool for implementing machine learning solutions directly within the R programming environment.Introduction to Machine LearningHow Machine Learning Works in RThe basic steps involved in a machine learning project using R include:Data Cleaning: Use packages like tidyverse and dplyr to clean and prepare the data.Algorithm Selection: Choose algorithms available in R packages such as caret, randomForest, e1071, nnet and many others.Model Training: Train models using R functions like train() from the caret package or specific model functions like lm(), glm(), or rpart().Prediction: Make predictions using predict() functions on the trained models.Evaluation: Evaluate model performance using metrics provided by packages like caret, yardstick and visualization packages like ggplot2.Classification Of Machine Learning in RMachine learning implementations are classified into 3 major categories, depending on the nature of learning.1. Supervised Learning in RSupervised learning we try to teach the machine with the data using labels and which already have the correct answer in it. After this, the machine will create an example set of data so that the supervised algorithm analyses the training data and produce the correct output of the labeled data. In R supervised learning involves training models with labeled data using R's vast set of packages and built-in functions.Example: You can use the rpart package to create a decision tree model to classify fruits based on attributes like color and shape.Supervised LearningPackages and Functions:caret : train()rpart : rpart()e1071 : svm()nnet : multinom()Types of Supervised LearningClassification: Predicts categories (e.g., spam or not spam) using logistic regression (glm() with family=binomial), decision trees (rpart()), or random forests (randomForest()).Regression: Predicts continuous outcomes (e.g., house prices) using functions like lm() or caret : train() with regression models.2. Unsupervised Learning in RUnsupervised learning is the training of machines using information that is not labeled and it works without any guidance. Here the main task of the machine is to separate the data using the similarities, differences and patterns without any prior supervision. Hence unsupervised learning is performed on unlabeled data where the model identifies patterns and structures on its own.Example:Use kmeans() to group customers into clusters based on their similarity in features like age, income, or spending habits. Each cluster represents customers who share common patterns.Use agnes() for hierarchical clustering, which builds a tree-like structure showing how groups of similar customers are progressively merged based on their similarityUnsupervised LearningPackages and Functions:stats : kmeans()cluster : agnes()factoextra for visualizing clustersarules : apriori() for association rule miningTypes of Unsupervised Learning:Clustering: Grouping similar data points using kmeans() or hierarchical clustering.Association: Finding rules with arules : apriori() to identify co-occurring items.3. Reinforcement Learning in RThe reinforcement learning method is all about taking suitable action to maximize reward in a particular situation. While reinforcement learning is not as heavily supported as supervised and unsupervised learning, R still offers packages such as ReinforcementLearning for basic implementations.Example: Use the ReinforcementLearning package to train an agent for optimal decision-making based on reward feedback.Reinforcement LearningSome main points in reinforcement learning:Input: Initial environment state.Output: Possible actions.Training: Learn policies based on reward signals.Types of Machine Learning Problems in RRegression: Used to predict continuous numeric values based on input data. Example: Predicting house prices based on area, location and amenities using lm() or caret : train().Classification: Assigns inputs into predefined categories or classes. Example: Classifying emails as "spam" or "not spam" using randomForest() or svm().Clustering: Groups similar data points together based on patterns in the data. Example: Segmenting patients based on their medical readings using kmeans() or agnes().Association: Identifies relationships between items or events that frequently occur together. Example: Market basket analysis to find items often bought together using apriori().Anomaly Detection: Detects unusual or abnormal patterns in data. Example: Identifying fraudulent credit card transactions using anomalize.Sequence Mining: Discovers patterns in sequential data. Example: Predicting next webpage clicks in a user's browsing session using TraMineR.Recommendation: Suggests items to users based on their behavior or preferences. Example: Recommending movies or songs based on past user interactions using recommenderlab.Popular R Packages Used to Implement Machine Learningcaret: Unified interface for model training and evaluation.randomForest: Implements Random Forest algorithms.e1071: Support Vector Machines (SVM), Naive Bayes, etc.xgboost: Gradient boosting machine learning.glmnet: Regularized regression (LASSO, Ridge).rpart: Decision tree models.DataExplorer: Automates exploratory data analysis.Dalex: Model explanations.dplyr and janitor: Data cleaning and transformation.ggplot2: Data visualization.Example of Machine Learning Applications in RWeb search: like Siri, Alexa, Google, Cortona: Recognize the user's voice and fulfill the request madeSocial Media Service: Help people to connect all over the world and also show the recommendations of the people we may knowOnline Customer Support: Provide high convenience of customer and efficiency of support agentIntelligent Gaming: Use high level responsive and adaptive non player characters similar to human like intelligenceProduct Recommendation: A software tool used to recommend the product that you might like to purchase or engage withVirtual Personal Assistance: It is the software which can perform the task according to the instructions providedTraffic Alerts: Help to switch the traffic alerts according to the situation providedOnline Fraud Detection: Check the unusual functions performed by the user and detect the fraudsHealthcare: Machine Learning can manage a large amount of data beyond the imagination of normal human being and help to identify the illness of the patient according to symptomsReal world example: When you search for some kind of cooking recipe on youtube, you will see the recommendations below with the title "You May Also Like This". This is a common use of Machine Learning.Advantages to Implement Machine Learning Using R Concise, readable and expressive code.Powerful statistical modeling capabilities.Extensive package ecosystem for every ML stage.Superior data visualization options.Active community support and documentation.Related ArticlesBest R Packages for Machine LearningSupervised and Unsupervised Learning in R ProgrammingMachine Learning with R Comment More infoAdvertise with us Next Article What is Machine Learning? S shivalibhadaniya Follow Improve Article Tags : R Machine Learning AI-ML-DS R Machine-Learning R Language Similar Reads Machine Learning with R Machine Learning as the name suggests is the field of study that allows computers to learn and take decisions on their own i.e. without being explicitly programmed. These decisions are based on the available data that is available through experiences or instructions. 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MDPs rely on variables such as the environment, agent’s actions and rewards to decide the system’s next optimal action. It 4 min read Q-Learning in Reinforcement LearningQ-Learning is a popular model-free reinforcement learning algorithm that helps an agent learn how to make the best decisions by interacting with its environment. Instead of needing a model of the environment the agent learns purely from experience by trying different actions and seeing their results 7 min read Deep Q-Learning in Reinforcement LearningDeep Q-Learning is a method that uses deep learning to help machines make decisions in complicated situations. 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It is constructed based on the cumulative distribution function (CDF) and calculates the greatest difference between the em 4 min read Moore – Penrose Pseudoinverse in R ProgrammingThe concept used to generalize the solution of a linear equation is known as Moore – Penrose Pseudoinverse of a matrix. Moore – Penrose inverse is the most widely known type of matrix pseudoinverse. In linear algebra pseudoinverse A^{+}    of a matrix A is a generalization of the inverse matrix. The 5 min read Spearman Correlation Testing in R ProgrammingCorrelation is a key statistical concept used to measure the strength and direction of the relationship between two variables. 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It can be used to estimate the confidence interval(CI) by drawing samples with replacement from sample data. Bootstrapping can be used to assign CI to various statistics that have no closed-form or complicated 5 min read Like