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Categorical Variable Mapping Considerations in Classification Problems: Protein Application

Author

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  • Gerardo Alfonso Perez

    (Biocomp Group, Institute of Advanced Materials (INAM), Universitat Jaume I, 12071 Castello, Spain)

  • Raquel Castillo

    (Biocomp Group, Institute of Advanced Materials (INAM), Universitat Jaume I, 12071 Castello, Spain)

Abstract

The mapping of categorical variables into numerical values is common in machine learning classification problems. This type of mapping is frequently performed in a relatively arbitrary manner. We present a series of four assumptions (tested numerically) regarding these mappings in the context of protein classification using amino acid information. This assumption involves the mapping of categorical variables into protein classification problems without the need to use approaches such as natural language process (NLP). The first three assumptions relate to equivalent mappings, and the fourth involves a comparable mapping using a proposed eigenvalue-based matrix representation of the amino acid chain. These assumptions were tested across a range of 23 different machine learning algorithms. It is shown that the numerical simulations are consistent with the presented assumptions, such as translation and permutations, and that the eigenvalue approach generates classifications that are statistically not different from the base case or that have higher mean values while at the same time providing some advantages such as having a fixed predetermined dimensions regardless of the size of the analyzed protein. This approach generated an accuracy of 83.25%. An optimization algorithm is also presented that selects an appropriate number of neurons in an artificial neural network applied to the above-mentioned protein classification problem, achieving an accuracy of 85.02%. The model includes a quadratic penalty function to decrease the chances of overfitting.

Suggested Citation

  • Gerardo Alfonso Perez & Raquel Castillo, 2023. "Categorical Variable Mapping Considerations in Classification Problems: Protein Application," Mathematics, MDPI, vol. 11(2), pages 1-26, January.
    • Handle: RePEc:gam:jmathe:v:11:y:2023:i:2:p:279-:d:1025961
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    References listed on IDEAS

    as
    1. Peng, Yaohao & Nagata, Mateus Hiro, 2020. "An empirical overview of nonlinearity and overfitting in machine learning using COVID-19 data," Chaos, Solitons & Fractals, Elsevier, vol. 139(C).
    2. Alexander Radovic & Mike Williams & David Rousseau & Michael Kagan & Daniele Bonacorsi & Alexander Himmel & Adam Aurisano & Kazuhiro Terao & Taritree Wongjirad, 2018. "Machine learning at the energy and intensity frontiers of particle physics," Nature, Nature, vol. 560(7716), pages 41-48, August.
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