Symmetry (Oct 2024)

Non-Periodic Quantized Model Predictive Control Method for Underwater Dynamic Docking

  • Tian Ni,
  • Can Sima,
  • Liang Qi,
  • Minghao Xu,
  • Junlin Wang,
  • Runkang Tang,
  • Lindan Zhang

DOI
https://doi.org/10.3390/sym16101392
Journal volume & issue
Vol. 16, no. 10
p. 1392

Abstract

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This study proposed an event-triggered quantized model predictive control (ETQMPC) method for the dynamic docking of unmanned underwater vehicles (UUVs) and human-occupied vehicles (HOVs). The proposed strategy employed a non-periodic control approach that initiated the non-linear model predictive control (NMPC) optimization and state sampling based on tracking errors and deviations from the predicted optimal state, thereby enhancing computing performance and system efficiency without compromising the control quality. To further conserve communication resources and improve information transfer efficiency, a quantitative feedback mechanism was employed for sampling and state quantification. The simulation experiments were performed to verify the effectiveness of the method, demonstrating excellent docking trajectory tracking performance, robustness against bounded current interference, and significant reductions in computational and communication burdens. The experimental results demonstrated that the method outperformed in the docking trajectory tracking control performance significantly improved the computational and communication performance, and comprehensively improved the system efficiency.

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