Data mining has been successfully used in numerous businesses and sectors as a result of its success in great visible areas like e-commerce and marketing. Healthcare is one of the recently identified industries. Healthcare sector continues to be "information-rich." The healthcare systems have access to a multitude of data sets and can use them to find hidden links and trends in data. There aren't enough efficient analysis tools, though. The dataset is analyzed using various machine learning algorithms, i.e., decision trees, neural networks, support vector machines, and algorithms. The experiment makes use of data mining.

This study paper aims to present an overview of the most recent methods for knowledge discovery in databases utilizing. Data mining is a technique used in modern medical research, especially to predict heart disease. The primary cause of a significant portion of deaths worldwide is heart disease.

Several experiments on the dataset have been done to compare the performance of predictive data mining techniques. The results show that SVM performs better of Other predictive techniques, such as ANN Neural Networks, and the decision tree performs poorly.

We are recommending that you test more classifiers, so you may compare the results with other algorithms and improve the system in our earlier work by adding more features. This will help the system predict and diagnose people with heart disease more accurately.

Ramalingam, V. V., Ayantan Dandapath, and M. Karthik Raja. "Heart disease prediction using machine learning techniques: a survey." International Journal of Engineering & Technology 7.2.8 (2018): 684-687.

Palaniappan, Sellappan, and Rafiah Awang. "Intelligent heart disease prediction system using data mining techniques." nternational Conference on Computer Systems and Applications, IEEE/ACS 2008IEEE, 2008.

Dangare, Chaitrali S., and Sulabha S. Apte. "Improved Study of Heart Disease Prediction System using Data Mining Classification Techniques." International Journal of Computer Applications, 47.10 (2012), 44-48.

D.J. Montana and L. Davis. Training Feedforward Neural Networks Using Genetic Algorithms. IJCAI, 1989.

Krizhevsky, A., I. Sutskever, and G.E. Hinton. [5] Krizhevsky, A., Sutskever, I., and Hinton, G.E.2012. Imagenet classification with deep convolutional neural networks.

J. Schmidhuber, An Overview of Deep Learning in Neural Networks.Neural networks, 61: 80-115, 2015.

Katarya, Rahul, and Sunit Kumar Meena. "Machine learning techniques for heart disease prediction: a comparative study and analysis." 87-97

Sabarinathan, V., and V. Sugumaran. "Diagnosis of heart disease using decision tree." International Journal of Research in Computer Applications & Information Technology 2.6 (2014): 74-79.

Singla, Anshu, Swarnajyoti Patra, and Lorenzo Bruzzone. "A novel classification technique based on progressive transductive SVM learning." Pattern Recognition Letters 42 (2014): 101-106.

Zhang, Y., et al., Sample-specific SVM learning for person re-identification, IEEE Conference on Computer Vision and Pattern Recognition, 2016.

Wang, S., D. Tao, and J. Yang, "Relative attribute SVM+ learning for age estimation. 46(3): p. 825-835.

M. Lichtman, UCI Machine Learning Repository [http://archive.ics.uci.edu/ml], Irvine, University of California, Irvine, School of Information and Computer Sciences (2013).