A Parameter Dimension Reduction-Based Estimation Approach to Enhance the Kinematic Accuracy of a Parallel Hardware-in-the-Loop Docking Simulator

A Parameter Dimension Reduction-Based Estimation Approach to Enhance the Kinematic Accuracy of a Parallel Hardware-in-the-Loop Docking Simulator

The docking simulators are significant ground test equipment for aerospace projects. The fidelity of docking simulation highly depends on the accuracy performance. This paper investigates the kinematic accuracy for the developed docking simulator. A novel kinematic calibration method which can reduc...

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Veröffentlicht in:Robotica 2021-06, Vol.39 (6), p.959-974
Hauptverfasser: Hu, Yan, Gao, Feng, Zhao, Xianchao, Yang, Tianhao, Shen, Haoran, Qi, Chenkun, Cao, Rui
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Calibration
Docking
Error analysis
Flight simulators
Ground tests
Hardware-in-the-loop simulation
Kinematics
Mathematical models
Parameter estimation
Parameter identification
Simulation
Simulator fidelity
Taylor series
Test equipment
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Zusammenfassung:The docking simulators are significant ground test equipment for aerospace projects. The fidelity of docking simulation highly depends on the accuracy performance. This paper investigates the kinematic accuracy for the developed docking simulator. A novel kinematic calibration method which can reduce the number of parameters for error modeling is presented. The principle of parameters separation is studied. A simplified error model is derived based on Taylor series. This method can contribute to the simplification of the error model, fewer measurements, and easier convergence during the parameters identification. The calibration experiment validates this method for further accuracy enhancement.
ISSN:0263-5747
1469-8668
DOI:10.1017/S0263574720000843