Machine Learning-Based Prediction of Cardiovascular Diseases

With the rapid development of artificial intelligence, extracting latent information from medical data has become increasingly critical. Cardiovascular disease is now a major threat to human health, being one of the leading causes of mortality. Therefore, developing effective prediction methods for cardiovascular diseases is urgently needed. Current medical approaches primarily focus on disease detection rather than prediction, which limits early intervention. By leveraging computational methods, it is possible to predict cardiovascular disease in advance, enabling timely treatment and potentially reducing the disease’s impact. This study employs machine learning techniques, including Support Vector Machine (SVM), Logistic Regression (LR), and Random Forest (RF), to predict cardiovascular diseases as classification problems. These machine learning models are supported by robust mathematical theory, allowing them to handle non-linear classification challenges effectively. The results offer valuable insights for the prevention and early treatment of cardiovascular diseases.