Sensors (Jan 2024)

Effects of Training and Calibration Data on Surface Electromyogram-Based Recognition for Upper Limb Amputees

  • Pan Yao,
  • Kaifeng Wang,
  • Weiwei Xia,
  • Yusen Guo,
  • Tiezhu Liu,
  • Mengdi Han,
  • Guangyang Gou,
  • Chunxiu Liu,
  • Ning Xue

DOI
https://doi.org/10.3390/s24030920
Journal volume & issue
Vol. 24, no. 3
p. 920

Abstract

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Surface electromyogram (sEMG)-based gesture recognition has emerged as a promising avenue for developing intelligent prostheses for upper limb amputees. However, the temporal variations in sEMG have rendered recognition models less efficient than anticipated. By using cross-session calibration and increasing the amount of training data, it is possible to reduce these variations. The impact of varying the amount of calibration and training data on gesture recognition performance for amputees is still unknown. To assess these effects, we present four datasets for the evaluation of calibration data and examine the impact of the amount of training data on benchmark performance. Two amputees who had undergone amputations years prior were recruited, and seven sessions of data were collected for analysis from each of them. Ninapro DB6, a publicly available database containing data from ten healthy subjects across ten sessions, was also included in this study. The experimental results show that the calibration data improved the average accuracy by 3.03%, 6.16%, and 9.73% for the two subjects and Ninapro DB6, respectively, compared to the baseline results. Moreover, it was discovered that increasing the number of training sessions was more effective in improving accuracy than increasing the number of trials. Three potential strategies are proposed in light of these findings to enhance cross-session models further. We consider these findings to be of the utmost importance for the commercialization of intelligent prostheses, as they demonstrate the criticality of gathering calibration and cross-session training data, while also offering effective strategies to maximize the utilization of the entire dataset.

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