Investigation in online-methods estimating the oscillating frequency to improve control adaptively

2011 16th International Conference on Methods & Models in Automation & Robotics Pub Date : 2011-09-29 DOI:10.1109/MMAR.2011.6031380

Peter Häuptle, P. Hubinský, G. Gruhler

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Abstract

The automation industry seeks for positioning systems with high dynamics and precision. In robotics or other light-weight applications where mechatronic drives are used, the end-effector often undesirably oscillates due to a relatively low system damping. Knowing the frequency of the damped oscillation would allow, e.g. “posicast”- or “input shaping”-control methods. Thus, suppression or even elimination of such an oscillation can be achieved. When the frequency changes due to e.g. variable loads or gravitational issues, the control settings should be changed as well. Then dynamics/precision can be held among non oscillation. Having a method which adapts e.g. a shaper to the actual frequency would allow a better suppression of such an oscillation. During run time, several sensor data of a mechatronic system contains this frequency more or less incisive. Several methods which may estimate online (during run time) this frequency in “transient”- as well as “semi-steady”-state were discussed in the following.

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在线估计振荡频率方法的研究，以提高控制的自适应性

自动化行业寻求具有高动态和精度的定位系统。在机器人或其他轻型应用中，使用机电一体化驱动，末端执行器通常由于相对较低的系统阻尼而产生不希望的振荡。知道阻尼振荡的频率将允许，例如，“posicast”-或“输入整形”-控制方法。因此，可以实现抑制甚至消除这种振荡。当频率因负载变化或重力问题而改变时，控制设置也应改变。然后在不振荡的情况下保持动态/精度。有一种方法，例如适应实际频率的整形器，将允许更好地抑制这种振荡。在运行过程中，机电一体化系统的多个传感器数据或多或少地包含了该频率。下面讨论了几种可以在线(在运行时)估计“瞬态”和“半稳态”状态下该频率的方法。

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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2011 16th International Conference on Methods & Models in Automation & Robotics

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