Modeling and Analysis of Permanent Magnet Spherical Motors by a Multitask Gaussian Process Method and Finite Element Method for Output Torque

Permanent magnet spherical motors (PMSMs) operate on the principle of the dc excitation of stator coils and three freedom of motion in the rotor. Each coil generates the torque in a specific direction, collectively they move the rotor to a direction of motion. Modeling and analysis of the output tor...

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Bibliographic Details
Published in:IEEE transactions on industrial electronics (1982) 2021-09, Vol.68 (9), p.8540-8549
Main Authors: Wen, Yan, Li, Guoli, Wang, Qunjing, Guo, Xiwen, Cao, Wenping
Format: Article
Language:English
Subjects:
Accuracy
Coils
Finite element method
Gaussian process
Gaussian processes
Induction motors
Motors
Multitask Gaussian process (MTGP)
Permanent magnet motors
permanent magnet spherical motor (PMSM)
Permanent magnets
Rotors
Torque
torque calculation
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Summary:Permanent magnet spherical motors (PMSMs) operate on the principle of the dc excitation of stator coils and three freedom of motion in the rotor. Each coil generates the torque in a specific direction, collectively they move the rotor to a direction of motion. Modeling and analysis of the output torque are of critical importance for precise position control applications. The control of these motors requires precise output torques by all coils at a specific rotor position, which is difficult to achieve in the three-dimension space. This article is the first to apply the Gaussian process to establish the relationship of the rotor position and the output torque for PMSMs. Traditional methods are difficult to resolve such a complex three-dimensional problem with a reasonable computational accuracy and time. This article utilizes a data-driven method using only input and output data validated by experiments. The multitask Gaussian process is developed to calculate the total torque produced by multiple coils at the full operational range. The training data and test data are obtained by the finite-element method. The effectiveness of the proposed method is validated and compared with existing data-driven approaches. The results exhibit superior performance of accuracy.
ISSN:0278-0046
1557-9948
DOI:10.1109/TIE.2020.3018078