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首页> 外文会议>Annual Conference of the IEEE Industrial Electronics Society >Position Control of a Magnetic Levitation Device Using a Non-Linear Disturbance Observer and Influence of the Position Sensing
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Position Control of a Magnetic Levitation Device Using a Non-Linear Disturbance Observer and Influence of the Position Sensing

机译:使用非线性干扰观测器的磁悬浮装置的位置控制和位置感测的影响

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This paper presents a method to improve the robustness of the position control of a small permanent magnet within a living organism, such as the human body in micro-surgery. So far, position control has been achieved up to 5 Degrees of Freedom with robustness against model uncertainties. In order to achieve robust control against non predicted disturbances, this paper uses a disturbance observer (DOB) which adapts to the non-linearity of the system. Disturbance observers require fast and accurate position sensing in order to estimate and compensate the disturbance accurately. The proposed method depends even more on the quality of the position sensing. To ensure good performances, robust stability conditions are derived regarding position feedback, and the proposed DOB is validated by simulations and experiments.
机译:本文介绍了一种改善生物体内小永磁体的位置控制的鲁棒性,例如微手术中的人体。到目前为止,已经实现了稳健性的稳健性达到了5次自由度的位置控制。为了实现对非预测干扰的鲁棒控制,本文使用扰动观察者(DOB),其适应系统的非线性。扰动观察者需要快速准确的位置感测,以便准确估计和补偿干扰。所提出的方法更加依赖于位置感测的质量。为了确保良好的性能,导出了关于位置反馈的稳健稳定性条件,并且通过模拟和实验验证了所提出的DOB。

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