Applied Sciences (May 2020)

Compensation of Measurement Uncertainty in a Remote Fetal Monitor

  • Sadot Arciniega-Montiel,
  • Guillermo Ronquillo-Lomeli,
  • Roberto Salas-Zúñiga,
  • Tomás Salgado-Jiménez,
  • Leonardo Barriga-Rodríguez

DOI
https://doi.org/10.3390/app10093274
Journal volume & issue
Vol. 10, no. 9
p. 3274

Abstract

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The perinatal mortality rate is very high throughout the world. A fetal monitor may be used remotely, and this would tackle the problem of continuous monitoring of high-risk pregnancies. There is evidence that current technology is of low reliability, and, therefore, of low precision to identify fetal health. In medical technological implementation, a safe, efficient, and reliable operation must be guaranteed, and the main problem is that remote fetal monitor gathers just a few samples, so the hypothesis of classical theory is not met. We are proposing an approach that improves the data’s lack of reliability that accompanies the use of a remote fetal monitor. The method refers to how, by using the existing technologies and the initial experimental data, it is possible to apply probabilistic models that are truly representative of each application. This leads to the characterization of properties of the statistics used to generate a representative probabilistic model without the need to consider the hard suppositions. Results show that, for every case study, it was possible to improve estimations of measurement uncertainty. The proposed method is a useful tool to increase the reliability of medical technology, especially for pieces of equipment where a health care professional is not available.

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