Uncertainty modeling of excavator’s variable displacement pump based on EFAST and MH-Cuckoo method

Uncertainty modeling of excavator’s variable displacement pump based on EFAST and MH-Cuckoo method

This study investigates the uncertainty in the modeling of variable displacement pumps, a critical component in excavators' energy-saving control systems. Existing research often neglects these uncertainties, which can affect both model accuracy and control performance. To address this, uncerta...

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Bibliographic Details
Main Authors: Su Deying, Lian Xiaozhen, Xie Meina
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:Results in Engineering
Subjects:
Variable displacement pump
Sensitivity analysis
MH-Cuckoo method
Uncertainty parameter estimation
Control performance
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123025022078
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Summary:This study investigates the uncertainty in the modeling of variable displacement pumps, a critical component in excavators' energy-saving control systems. Existing research often neglects these uncertainties, which can affect both model accuracy and control performance. To address this, uncertainty modeling of the variable displacement pump was performed using the EFAST and MHCuckoo methods, and the control performance of the uncertainty method was analyzed. EFAST sensitivity analysis selected key parameters in the modeling process, including ωd, ξd, Fs0, K and ωp, with corresponding sensitivity indices (Sx) of 0.181, 0.171, 0.083, 0.078, and 0.078, respectively. The MHCuckoo method was employed to estimate the uncertainty of these parameters, providing accurate value ranges. Compared to traditional MH and MH-PSO methods, the MHCuckoo method demonstrated superior iteration efficiency, higher sample acceptance rates (53.2 %, compared to 22.3 % and 45.6 % for MH and MH-PSO, respectively), and reduced sample stagnation. The BP-PID control system performance was evaluated under uncertainty and deterministic methods, with sine input signals at 4 different frequencies. The uncertainty method yielded average MARE values of 1.24 %, 1.92 %, 2.57 %, and 3.02 %, outperforming the deterministic method (2.74 %, 3.41 %, 5.30 %, and 7.20 %). The results demonstrate that EFAST and MHCuckoo methods can reliably and efficiently perform uncertainty analysis. Uncertainty method effectively ensured the stability of the variable displacement pump control system. This study provides theoretical and practical guidance for energy-saving control in excavators.
ISSN:2590-1230

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