• Title of article

    Conceptual Design of a Device for Online Calibration of Spirometer Based on Neural Network

  • Author/Authors

    Nafisi ، Vahid Reza Biomedical engineering group, Department of Electrical Information Technology - Iranian Research Organization for Science and Technology , Eghbal ، Manouchehr Biomedical engineering group, Department of Electrical Information Technology - Iranian Research Organization for Science and Technology , Torbati ، Nasim Food and Drug Administration - Ministry of Health and Medical Education

  • From page
    291
  • To page
    296
  • Abstract
    Daily calibration of spirometry devices plays an important role in promoting the accuracy of pulmonary diagnostic results. It is needed to have more precise and adequate instruments for calibrating spirometry during the clinical use. In this work, a device was designed and developed based on a calibrated-volume syringe and an electrical circuit was also built to measure the air flux. Some colored tapes with specific size and order covered the syringe piston. When the piston moved in front of the color sensor, the input air flow was calculated according to the width of the strips and transferred to the computer. A Radial Basis Function (RBF) neural network estimator used new data to modify the previous estimation function for increasing the accuracy and the reliability. The simulation showed that the root mean square of the error improved from 13.7±0.37% to 4.2±0.22%, i.e. the calibration curve has improved about 70%.
  • Keywords
    Spirometry , Calibration , Artificial Intelligence , Neural Network Model , Color Sensor
  • Journal title
    Journal of Biomedical Physics and Engineering
  • Journal title
    Journal of Biomedical Physics and Engineering
  • Record number

    2742233