Despite advances in technology and health, the number of maternal and fetal deaths during and after pregnancy and childbirth remains significant. Most of these deaths could be avoided if there was prenatal care before and during pregnancy, which could assist in monitoring the fetal heart rate (FHR). Thus, medical methods have been developed for assisting fetal monitoring, such as cardiotocography (CTG). To collaborate with the methods developed, advances in the field of machine learning and computational intelligence made it possible to increase the effectiveness of classification and recognition systems and, thus, to predict possible maternal or fetal death. To this end, this paper tries to predict fetal well-being, through the classification of data resulting from fetal CTGs using two different types of classification, fetal state and morphological pattern. The classification by fetal state, using methods such as Decision Tree (DT) and k-Nearest Neighbors (kNN), presented high accuracy values, achieving values that range from 93% to 98%. However, although not expected, the classification by morphological standards also showed high accuracy values, achieving the best model a value of 93% of accuracy with the kNN. Therefore, the complementary between both classifications may guarantee success in predicting fetal well-being.
[1]
Adam Gacek,et al.
The Prediction of Fetal Outcome by Applying Neural Network for Evaluation of CTG Records
,
2008,
Computer Recognition Systems 2.
[2]
Filipe Portela,et al.
Predicting Type of Delivery by Identification of Obstetric Risk Factors through Data Mining
,
2015,
CENTERIS/ProjMAN/HCist.
[3]
Ibrahim El-Henawy,et al.
Classifying Cardiotocography Data based on Rough Neural Network
,
2019
.
[4]
António Abelha,et al.
Recommendation System Using Autoencoders
,
2020,
Applied Sciences.
[5]
Mei-Ling Huang,et al.
Fetal distress prediction using discriminant analysis, decision tree, and artificial neural network
,
2012
.