IEEE Access (Jan 2022)

Magnetic Force Classifier: A Novel Method for Big Data Classification

  • Ahmad B. Hassanat,
  • Hasan N. Ali,
  • Ahmad S. Tarawneh,
  • Malek Alrashidi,
  • Mansoor Alghamdi,
  • Ghada Awad Altarawneh,
  • Mohammad Ali Abbadi

DOI
https://doi.org/10.1109/ACCESS.2022.3142888
Journal volume & issue
Vol. 10
pp. 12592 – 12606

Abstract

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There are a plethora of invented classifiers in Machine learning literature, however, there is no optimal classifier in terms of accuracy and time taken to build the trained model, especially with the tremendous development and growth of Big data. Hence, there is still room for improvement. In this paper, we propose a new classification method that is based on the well-known magnetic force. Based on the number of points belonging to a specific class/magnet, the proposed magnetic force (MF) classifier calculates the magnetic force at each discrete point in the feature space. Unknown examples are classified using the magnetic forces recorded in the trained model by various magnets/classes. When compared to existing classifiers, the proposed MF classifier achieves comparable classification accuracy, according to the experimental results utilizing 28 different datasets. More importantly, we found that the proposed MF classifier is significantly faster than all other classifiers tested, particularly when applied to Big datasets and hence could be a viable option for structured Big data classification with some optimization.

Keywords