A comparative analysis of machine learning methods for classification type decision problems in healthcare

Emanet, Nahit; Öz, H. R.; Bayram, Nazan; Delen, Dursun

doi:10.1186/2193-8636-1-6

Cited by 49 publications

(24 citation statements)

References 22 publications

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“…A similar accuracy has been obtained using advanced signal processing techniques based on the persistent homology of delay embedding [3]. Although the literature mentions the importance of ensemble classifiers in the decision making related to asthma patients [18,19], there is no paper, based on our knowledge, that investigates more deeply the efficiency of ensemble methods in wheezing detection in comparison to individual classifiers. In addition, the majority of the experimental results are evaluated based on the breathing record acquired under the controlled condition from the adult patients [29].…”

Section: The Research Overviewmentioning

confidence: 56%

Two-level coarse-to-fine classification algorithm for asthma wheezing recognition in children's respiratory sounds

Mazić

Bonković

Džaja

2015

Biomedical Signal Processing and Control

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Section: The Research Overviewmentioning

confidence: 56%

Two-level coarse-to-fine classification algorithm for asthma wheezing recognition in children's respiratory sounds

Mazić

Bonković

Džaja

2015

Biomedical Signal Processing and Control

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“…Furthermore, it is simple, swift, and easy to use with an iterative algorithm which requires only one parameter, iteration number. Moreover, it is not subject to over-fitting and simply determines outliners which are incorrectly classified or are difficult to classify [21]. However, misclassified and/or difficult instances are given significance by gradient boosting (GB), via the remaining errors-also known as pseudo-residuals-of a strong learner.…”

Section: ) Boosting-based Techniques: Adaboost and Stochasticmentioning

confidence: 99%

Assessing Advanced Machine Learning Techniques for Predicting Hospital Readmission

Alajmani¹,

Jambi²

2020

IJACSA

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Predicting the probability of hospital readmission is one of the most important healthcare problems for satisfactory, high-quality service in chronic diseases such as diabetes, in order to identify needful resources such as rooms, medical staff, beds, and specialists. Unfortunately, not many studies in the literature address this issue. Most studies involve forecasting the probability of diseases. For prediction, several machine learning methods can be implemented. Nonetheless, comparative studies that identify the most effective approaches for the method prediction are also insufficient. With this aim, our paper introduces a comparative study in the literature across five popular methods to predict the probability of hospital readmission in patients suffering from diabetes. The selected techniques include linear discriminant analysis, instance-based learning (K-nearest neighbors), and ensemble-based learning (random forest, AdaBoost, and gradient boosting) techniques. The study showed that the best performance was in random forest whereas the worst performance was shown by linear discriminant analysis.

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“…Both strategies have limitations such as loss of data with undersampling or overfitting with oversampling, and the effect of resampling has rarely been evaluated. 9 Synthetic Minority Oversampling Technique (SMOTE) is one way of achieving class balance. It is designed to generate new synthetic data that is coherent with the minority class distribution while minimising overfitting.…”

Section: Introductionmentioning

confidence: 99%

Class imbalance in gradient boosting classification algorithms: Application to experimental stroke data

Lyashevska

Malone

MacCarthy

et al. 2020

Stat Methods Med Res

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Imbalance between positive and negative outcomes, a so-called class imbalance, is a problem generally found in medical data. Imbalanced data hinder the performance of conventional classification methods which aim to improve the overall accuracy of the model without accounting for uneven distribution of the classes. To rectify this, the data can be resampled by oversampling the positive (minority) class until the classes are approximately equally represented. After that, a prediction model such as gradient boosting algorithm can be fitted with greater confidence. This classification method allows for non-linear relationships and deep interactive effects while focusing on difficult areas by iterative shifting towards problematic observations. In this study, we demonstrate application of these methods to medical data and develop a practical framework for evaluation of features contributing into the probability of stroke.

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A comparative analysis of machine learning methods for classification type decision problems in healthcare

Cited by 49 publications

References 22 publications

Two-level coarse-to-fine classification algorithm for asthma wheezing recognition in children's respiratory sounds

Two-level coarse-to-fine classification algorithm for asthma wheezing recognition in children's respiratory sounds

Assessing Advanced Machine Learning Techniques for Predicting Hospital Readmission

Class imbalance in gradient boosting classification algorithms: Application to experimental stroke data

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