Pulak Chandra Bhowmik

Work place: Dept. of Computer Science & Engineering, Stamford University Bangladesh, Dhaka, Bangladesh

E-mail: pulokbhowmik@gmail.com

Website:

Research Interests: Software Engineering, Computer systems and computational processes, Computational Learning Theory, Computer Architecture and Organization, Computer Networks

Biography

Pulak Chandra Bhowmik received his Bachelor's degree in Computer Science and Engineering from Stamford University Bangladesh, Dhaka, Bangladesh in 2019. He is currently working as an IT support Engineer at Flight Expert, Dhaka, Bangladesh. His major working interest is based on Software Engineering, Computer Hardware, Computer Networking, Machine Learning and Cloud Computing.

Author Articles
Cardiotocography Data Analysis to Predict Fetal Health Risks with Tree-Based Ensemble Learning

By Pankaj Bhowmik Pulak Chandra Bhowmik U. A. Md. Ehsan Ali Md. Sohrawordi

DOI: https://doi.org/10.5815/ijitcs.2021.05.03, Pub. Date: 8 Oct. 2021

A sizeable number of women face difficulties during pregnancy, which eventually can lead the fetus towards serious health problems. However, early detection of these risks can save both the invaluable life of infants and mothers. Cardiotocography (CTG) data provides sophisticated information by monitoring the heart rate signal of the fetus, is used to predict the potential risks of fetal wellbeing and for making clinical conclusions. This paper proposed to analyze the antepartum CTG data (available on UCI Machine Learning Repository) and develop an efficient tree-based ensemble learning (EL) classifier model to predict fetal health status. In this study, EL considers the Stacking approach, and a concise overview of this approach is discussed and developed accordingly. The study also endeavors to apply distinct machine learning algorithmic techniques on the CTG dataset and determine their performances. The Stacking EL technique, in this paper, involves four tree-based machine learning algorithms, namely, Random Forest classifier, Decision Tree classifier, Extra Trees classifier, and Deep Forest classifier as base learners. The CTG dataset contains 21 features, but only 10 most important features are selected from the dataset with the Chi-square method for this experiment, and then the features are normalized with Min-Max scaling. Following that, Grid Search is applied for tuning the hyperparameters of the base algorithms. Subsequently, 10-folds cross validation is performed to select the meta learner of the EL classifier model. However, a comparative model assessment is made between the individual base learning algorithms and the EL classifier model; and the finding depicts EL classifiers’ superiority in fetal health risks prediction with securing the accuracy of about 96.05%. Eventually, this study concludes that the Stacking EL approach can be a substantial paradigm in machine learning studies to improve models’ accuracy and reduce the error rate.

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