Sensors (Oct 2016)

Glucose Oxidase Biosensor Modeling and Predictors Optimization by Machine Learning Methods

  • Felix F. Gonzalez-Navarro,
  • Margarita Stilianova-Stoytcheva,
  • Livier Renteria-Gutierrez,
  • Lluís A. Belanche-Muñoz,
  • Brenda L. Flores-Rios,
  • Jorge E. Ibarra-Esquer

DOI
https://doi.org/10.3390/s16111483
Journal volume & issue
Vol. 16, no. 11
p. 1483

Abstract

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Biosensors are small analytical devices incorporating a biological recognition element and a physico-chemical transducer to convert a biological signal into an electrical reading. Nowadays, their technological appeal resides in their fast performance, high sensitivity and continuous measuring capabilities; however, a full understanding is still under research. This paper aims to contribute to this growing field of biotechnology, with a focus on Glucose-Oxidase Biosensor (GOB) modeling through statistical learning methods from a regression perspective. We model the amperometric response of a GOB with dependent variables under different conditions, such as temperature, benzoquinone, pH and glucose concentrations, by means of several machine learning algorithms. Since the sensitivity of a GOB response is strongly related to these dependent variables, their interactions should be optimized to maximize the output signal, for which a genetic algorithm and simulated annealing are used. We report a model that shows a good generalization error and is consistent with the optimization.

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