An empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification
The selection of a meta-learner determines the success of a stacked ensemble as the meta-learner is responsible for the final predictions of the stacked ensemble. Unfortunately, in imbalanced classification, selecting an appropriate and well-performing meta-learner of stacked ensemble is not straigh...
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my.um.eprints.271152022-04-08T04:42:24Z http://eprints.um.edu.my/27115/ An empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification Zian, Seng Abdul Kareem, Sameem Varathan, Kasturi Dewi QA75 Electronic computers. Computer science TA Engineering (General). Civil engineering (General) TK Electrical engineering. Electronics Nuclear engineering The selection of a meta-learner determines the success of a stacked ensemble as the meta-learner is responsible for the final predictions of the stacked ensemble. Unfortunately, in imbalanced classification, selecting an appropriate and well-performing meta-learner of stacked ensemble is not straightforward as different meta-learners are advocated by different researchers. To investigate and identify a well-performing type of meta-learner in stacked ensemble for imbalanced classification, an experiment consisting of 19 meta-learners was conducted, detailed in this paper. Among the 19 meta-learners of stacked ensembles, a new weighted combination-based meta-learner that maximizes the H-measure during the training of stacked ensemble was first introduced and implemented in the empirical evaluation of this paper. The classification performances of stacked ensembles with 19 different meta-learners were recorded using both the area under the receiver operating characteristic curve (AUC) and H-measure (a metric that overcomes the deficiencies of the AUC). The weighted combination-based meta-learners of stacked ensembles have better classification performances on imbalanced datasets when compared to bagging-based, boosting-based, Decision Trees, Support Vector Machines, Naive Bayes, and Feedforward Neural Network meta-learners. Thus, the adoption of weighted combination-based meta-learners in stacked ensembles is recommended for their better performance on imbalanced datasets. Also, based on the empirical results, we identified better-performing meta-learners (such as the AUC maximizing meta-learner and the H-measure maximizing meta-learner) than the widely adopted meta-learner - Logistic Regression - in imbalanced classification. Institute of Electrical and Electronics Engineers 2021 Article PeerReviewed Zian, Seng and Abdul Kareem, Sameem and Varathan, Kasturi Dewi (2021) An empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification. IEEE Access, 9. pp. 87434-87452. ISSN 2169-3536, DOI https://doi.org/10.1109/ACCESS.2021.3088414 <https://doi.org/10.1109/ACCESS.2021.3088414>. 10.1109/ACCESS.2021.3088414 |
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QA75 Electronic computers. Computer science TA Engineering (General). Civil engineering (General) TK Electrical engineering. Electronics Nuclear engineering Zian, Seng Abdul Kareem, Sameem Varathan, Kasturi Dewi An empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification |
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The selection of a meta-learner determines the success of a stacked ensemble as the meta-learner is responsible for the final predictions of the stacked ensemble. Unfortunately, in imbalanced classification, selecting an appropriate and well-performing meta-learner of stacked ensemble is not straightforward as different meta-learners are advocated by different researchers. To investigate and identify a well-performing type of meta-learner in stacked ensemble for imbalanced classification, an experiment consisting of 19 meta-learners was conducted, detailed in this paper. Among the 19 meta-learners of stacked ensembles, a new weighted combination-based meta-learner that maximizes the H-measure during the training of stacked ensemble was first introduced and implemented in the empirical evaluation of this paper. The classification performances of stacked ensembles with 19 different meta-learners were recorded using both the area under the receiver operating characteristic curve (AUC) and H-measure (a metric that overcomes the deficiencies of the AUC). The weighted combination-based meta-learners of stacked ensembles have better classification performances on imbalanced datasets when compared to bagging-based, boosting-based, Decision Trees, Support Vector Machines, Naive Bayes, and Feedforward Neural Network meta-learners. Thus, the adoption of weighted combination-based meta-learners in stacked ensembles is recommended for their better performance on imbalanced datasets. Also, based on the empirical results, we identified better-performing meta-learners (such as the AUC maximizing meta-learner and the H-measure maximizing meta-learner) than the widely adopted meta-learner - Logistic Regression - in imbalanced classification. |
format |
Article |
author |
Zian, Seng Abdul Kareem, Sameem Varathan, Kasturi Dewi |
author_facet |
Zian, Seng Abdul Kareem, Sameem Varathan, Kasturi Dewi |
author_sort |
Zian, Seng |
title |
An empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification |
title_short |
An empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification |
title_full |
An empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification |
title_fullStr |
An empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification |
title_full_unstemmed |
An empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification |
title_sort |
empirical evaluation of stacked ensembles with different meta-learners in imbalanced classification |
publisher |
Institute of Electrical and Electronics Engineers |
publishDate |
2021 |
url |
http://eprints.um.edu.my/27115/ |
_version_ |
1735409501432971264 |