Future Internet (Oct 2023)

Comparison of Supervised Learning Algorithms on a 5G Dataset Reduced via Principal Component Analysis (PCA)

  • Joan D. Gonzalez-Franco,
  • Jorge E. Preciado-Velasco,
  • Jose E. Lozano-Rizk,
  • Raul Rivera-Rodriguez,
  • Jorge Torres-Rodriguez,
  • Miguel A. Alonso-Arevalo

DOI
https://doi.org/10.3390/fi15100335
Journal volume & issue
Vol. 15, no. 10
p. 335

Abstract

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Improving the quality of service (QoS) and meeting service level agreements (SLAs) are critical objectives in next-generation networks. This article presents a study on applying supervised learning (SL) algorithms in a 5G/B5G service dataset after being subjected to a principal component analysis (PCA). The study objective is to evaluate if the reduction of the dimensionality of the dataset via PCA affects the predictive capacity of the SL algorithms. A machine learning (ML) scheme proposed in a previous article used the same algorithms and parameters, which allows for a fair comparison with the results obtained in this work. We searched the best hyperparameters for each SL algorithm, and the simulation results indicate that the support vector machine (SVM) algorithm obtained a precision of 98% and a F1 score of 98.1%. We concluded that the findings of this study hold significance for research in the field of next-generation networks, which involve a wide range of input parameters and can benefit from the application of principal component analysis (PCA) on the performance of QoS and maintaining the SLA.

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