Prediction and accuracy improvement of insulin pump in-fusion deviation based on LSTM and PID.

Journal: PloS one
Published Date: Jun 4, 2025

Abstract

In order to further improve the injection precision of the PH300 insulin pump, this paper optimizes and improves the mechanical structure and control algorithm of the PH300. The improved PH300 uses a proportional-integral-derivative controller based on back propagation neural network (BP-PID) algorithm to control operation, and the experimental results show that the minimum effective single infusion dose of the improved PH300 is 0.047 U, which is reduced by 50.52%. The deviation reduction of low-dose infusion (0.1U-0.9U) ranged from 1.47% to 10.87%, with a mean of 4.91%. The mean deviation of the improved PH300 decreases by 12.85% after a 24h low basal rate (0.5U/h) injection. In addition, Long Short-Term Memory (LSTM) was used to predict the deviation during injection, and the predicted values were uniformly compensated for in subsequent injection experiments. The LSTM model performed best with a training set of 85%, a test set of 15%, an epoch of 300, a batch number of 256, and 32 hidden layer neurons. After compensation, the mean infusion deviation for large doses was reduced by 12.05%, and the maximum deviation by 14.12%.

Authors

  • Leijie Wang
    School of Mechanical Engineering, Dongguan University of Technology, Dongguan, China.
  • Xudong Guo
    School of Medical Instruments and Food Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China.
  • Qiuyue Peng
    Department Emergency of Internal Medicine, Hubei Provincial Hospital of Traditional Chinese Medicine, Wuhan, China.
  • Hongmei Zhang
    School of Mechanical and Electrical Engineering, Henan Agricultural University, Zhengzhou, Henan, China.
  • Yuan Yang
    The Ministry of Education Key Laboratory of Contemporary Design and Integrated Manufacturing Technology, Northwestern Polytechnical University, No. 127, Youyi Road (West), Xi'an 710072, China.
  • Hongyan Wang
    State Key Laboratory of Genetic Engineering, School of Life Sciences, Zhongshan Hospital, Fudan University, Shanghai, 200432, China.
  • Yongxin Wang
    School of Measurement and Control Technology and Communication Engineering, Harbin University of Science and Technology, Harbin 150080, China.
  • Haofang Liang
    Zhengzhou Phray Technology co., Ltd., Zhengzhou, China.
  • Wuyi Ming
    Guangdong HUST Industrial Technology Research Institute, Guangdong Provincial Key Laboratory of Digital Manufacturing Equipment, Dongguan, China.
  • Zhen Zhang
    School of Pharmacy, Jining Medical University, Rizhao, Shandong, China.

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