基于振荡器的溜溜球控制:与基于模型的控制的实现与比较

ICAR '05. Proceedings., 12th International Conference on Advanced Robotics, 2005. Pub Date : 2005-07-18 DOI:10.1109/ICAR.2005.1507406

Huiliang Jin, M. Zacksenhouse

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引用次数: 2

摘要

本文比较了基于振荡器的控制器和基于模型的控制器稳定溜溜球的能力。结果表明，基于振荡器的控制器可以以每周期一次的反馈运行，而基于模型的控制器需要高速率的状态反馈。然而，基于振荡器的低速率反馈控制的结果是其参数空间的稳定性较小。因此，可能有必要使用基于模型的高频反馈控制器来初始稳定系统。一旦系统稳定，就可以切换到基于振荡器的控制器，即使在低速率反馈的情况下，也可以保持系统稳定。这在溜溜球控制的背景下得到了证明，溜溜球控制是周期性和开环不稳定的

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Oscillator-based yoyo control: implementation and comparison with model-based control

The capabilities of an oscillator-based controller are compared with that of a model-based controller for stabilizing a yoyo in this paper. It is shown that the oscillator-based controller can operate with a once per cycle feedback, while the model-based controller requires high-rate state feedback. However, a consequence upon the oscillator-based control with low-rate feedback is a smaller stability regime in its parameter space. Hence it may be necessary to use the model-based controller with high-freq feedback to stabilize the system initially. Once the system is stabilized, it is possible to switch to the oscillator-based controller, which can keep the system stable against minor disturbances even with low-rate feedback. This is demonstrated in the context of yoyo-control, which is periodic and open-loop unstable

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ICAR '05. Proceedings., 12th International Conference on Advanced Robotics, 2005.

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