AI Article Synopsis
- * The study introduces a hybrid method called BDMSAO that combines the binary version of DMO and simulated annealing to improve the exploitation capabilities of the original DMO algorithm.
- * Testing on 18 UCI machine learning datasets and three high-dimensional medical datasets demonstrated that BDMSAO outperformed ten other methods, achieving 61.11% overall classification accuracy and 100% accuracy on 9 out of 18 datasets, showcasing its effectiveness in feature selection.
Article Abstract
The dwarf mongoose optimization (DMO) algorithm developed in 2022 was applied to solve continuous mechanical engineering design problems with a considerable balance of the exploration and exploitation phases as a metaheuristic approach. Still, the DMO is restricted in its exploitation phase, somewhat hindering the algorithm's optimal performance. In this paper, we proposed a new hybrid method called the BDMSAO, which combines the binary variants of the DMO (or BDMO) and simulated annealing (SA) algorithm. In the modelling and implementation of the hybrid BDMSAO algorithm, the BDMO is employed and used as the global search method and the simulated annealing (SA) as the local search component to enhance the limited exploitative mechanism of the BDMO. The new hybrid algorithm was evaluated using eighteen (18) UCI machine learning datasets of low and medium dimensions. The BDMSAO was also tested using three high-dimensional medical datasets to assess its robustness. The results showed the efficacy of the BDMSAO in solving challenging feature selection problems on varying datasets dimensions and its outperformance over ten other methods in the study. Specifically, the BDMSAO achieved an overall result of 61.11% in producing the highest classification accuracy possible and getting 100% accuracy on 9 of 18 datasets. It also yielded the maximum accuracy obtainable on the three high-dimensional datasets utilized while achieving competitive performance regarding the number of features selected.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9440036 | PMC |
| http://dx.doi.org/10.1038/s41598-022-18993-0 | DOI Listing |
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