dc.description.abstract | Brain Strokes are the prime cause of fatality in the world. Bangladesh probably has the
highest rates of brain strokes among all South Asian countries and yet is the least studied.
Predicting stroke effect from a set of predictive attributes may classify high-risk patients
and guide cure approaches, leading to reduce relative incidence. In this work, we propose
an intelligent system that can make an effectively prediction of a possible brain strokes
using only eight (8) features. We also apply six (06) well known supervised machine
learning algorithms on first Bangladeshi datasets collected from five different hospitals of
Bangladesh to analyze the prediction accuracy. The overall process can be categorized into
four phases. Phase 1: we have provided a comprehensive literature review where we
summarize various related machine learning algorithms. Phase 2: we have collected brain
stokes patients’ data from five different hospitals of Bangladesh to create a dataset. Phase
3: we have selected the important features by using feature importance score. Finally, feed
the data to appropriate machine learning algorithms to determine if the predictive model is
accurate. It is observed that using our collected dataset for 8 features the classification
accuracy of Bagging is almost 96% and it performs better than other classification
algorithms such as Logistic Regression (94.82%), k-Nearest Neighbor (73.27%), support
vector machines (93.96%), Naive Bayes (93.97%) and Decision Tree (89.66%). Whereas
using the dataset with all 23 attributes the classification accuracy of Bagging is 93.43% and
it also performs better than the other classification algorithms, such as Logistic Regression
(92.24%), k-Nearest Neighbor (69.83%), support vector machines (90.52%), Naive Bayes
(92.24%) and Decision Tree (87.07%). | en_US |