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Feature selection based on dataset variance optimization using Hybrid Sine Cosine – Firehawk Algorithm (HSCFHA)
Ref: CISTER-TR-240203       Publication Date: 19, Feb, 2024

Feature selection based on dataset variance optimization using Hybrid Sine Cosine – Firehawk Algorithm (HSCFHA)

Ref: CISTER-TR-240203       Publication Date: 19, Feb, 2024

Abstract:
Feature selection plays a pivotal role in preprocessing data for machine learning (ML) models. It entails choosing a subset of pertinent features to enhance the model’s accuracy and minimize overfitting. Wrapper methods based on metaheuristics are one approach to feature selection, leveraging the predictive accuracy of a learning algorithm to form a condensed set of features. Traditionally, this method uses K-Nearest Neighbor (KNN) for maximizing accuracy as its cost function. However, this approach often yields less than optimal results in large sample spaces and demands considerable computational resources. To circumvent the shortcomings of this approach, this work proposes a novel metaheuristic algorithm, termed the Hybrid Sine Cosine Firehawk Algorithm. Furthermore, a novel feature selection technique is designed that uses this hybrid algorithm to eliminate insignificant and redundant features by incorporating the minimization of dataset variance in the cost function. Additionally, the hybridization of multiple metaheuristic algorithms produces the best features of each algorithm to improve the exploration ability. The proposed technique is tested on 22 University of California Irvine datasets containing low, medium and high dimensional datasets and compared to the traditional KNN-based approach. The technique is also compared with other state-of-the-art metaheuristic techniques, namely Particle Swarm Optimizer, Grey Wolf Optimizer, Whale Optimization Algorithm, Hybrid Ant Colony Optimizer and Improved Binary Bat Algorithm. The results show significant improvements over previous techniques in terms of minimal loss in essential data while reducing the size of the raw data in considerably less time, as well as a well-balanced confusion matrix.

Authors:
Syed Kumayl Raza Moosavi
,
Ahsan Saadat
,
Zainab Abaid
,
Wei Ni
,
Kai Li
,
Mohsen Guizani


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Published in Future Generation Computer Systems (FGCS) (FGCS), Elsevier, Edited: Michela Taufer, Volume 155, pp 272-286.

DOI:https://doi.org/10.1016/j.future.2024.02.017.



Record Date: 21, Feb, 2024
Short links for this page: www.cister-labs.pt/docs/https___doi_org_10_1016_j_future_2024_02_017 www.cister-labs.pt/docs/cister_tr_240203 www.cister-labs.pt/docs/1885
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