An optimal sensor placement strategy for force and torque analytical models of a reaction sphere actuator for satellite attitude control

L. Rossini, E. Onillon, Olivier Chételat, Y. Perriard
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引用次数: 2

Abstract

This article presents an optimization strategy to position magnetic flux density sensors in a reaction sphere actuator. The reaction sphere consists in a magnetic bearings spherical rotor whose rotation axis can be electronically controlled. The actuator is composed of an 8-pole permanent magnet spherical rotor and of a 20-coil stator. Force and torque analytical models of the actuator are parameterized using 7 decomposition coefficients that deliver to the models all the necessary information relative to the orientation of the rotor inside the stator. These coefficients are determined non-iteratively and in a linear fashion by measuring the radial component of the magnetic flux density from at least 7 different locations. The proposed optimization procedure consists in minimizing the condition number related to the linear estimation problem of the coefficients so as to minimize the influence of the measurement noise on force and torque relative errors. Finally, numerical simulations confirm the effectiveness of the proposed optimization strategy.
卫星姿态控制反力球作动器力和力矩分析模型的传感器优化布置策略
本文提出了一种磁通密度传感器在反应球执行器中的优化定位策略。反应球由一个磁轴承球形转子组成,其旋转轴可以电子控制。该驱动器由一个8极永磁球形转子和一个20线圈定子组成。执行器的力和扭矩分析模型使用7个分解系数进行参数化,这些分解系数向模型提供了与定子内部转子方向相关的所有必要信息。通过从至少7个不同位置测量磁通密度的径向分量,以非迭代和线性方式确定这些系数。所提出的优化过程包括最小化与系数线性估计问题相关的条件数,以最小化测量噪声对力和扭矩相对误差的影响。最后,通过数值仿真验证了所提优化策略的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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