Non-Identifier-Based Adaptive Speed Control for a Two-Mass Flexible Servo System: Consideration of Stability and Steady State Accuracy

2006 14th Mediterranean Conference on Control and Automation Pub Date : 2006-06-28 DOI:10.1109/MED.2006.328790

H. Schuster, C. Westermaier, D. Schroder

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引用次数: 8

Abstract

High-gain-control belongs to the class of non-identifier-based control concepts which goes without an identification algorithm to control plants with unknown parameter values. Although the simplicity of this strategy is a striking advantage, a nondecreasing gain function is used. This restricts the applicability especially in the context of tracking problems or disturbances. For this reason, funnel-control was introduced which is a proportional controller with a time-varying gain function. The gain is not monotone and can increase and decrease as well. Due to the proportional behavior, the steady state error cannot be expected to vanish. Theoretically, the error can be forced being arbitrarily small. But due to sensor noise, a large control error must be accepted in general. To obtain steady state accuracy as well as reduced mechanical vibrations, the funnel-controller is amended by an additional integral control action and by a dynamic feedback. Proofs are given that these extensions are introduced in such a way that the closed loop stability is not endangered

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基于非辨识器的双质量柔性伺服系统自适应速度控制:稳定性和稳态精度的考虑

高增益控制属于非基于辨识的控制概念，它不需要辨识算法来控制参数值未知的对象。虽然这种策略的简单性是一个显著的优势，但它使用了一个非递减增益函数。这限制了适用性，特别是在跟踪问题或干扰的上下文中。为此，引入了一种具有时变增益函数的比例控制器——漏斗控制。增益不是单调的，也可以增加和减少。由于比例行为，稳态误差不能期望消失。理论上，误差可以被强制为任意小。但由于传感器噪声的存在，一般必须接受较大的控制误差。为了获得稳态精度以及减少机械振动，通过附加的积分控制动作和动态反馈对漏斗控制器进行了修正。证明了这些扩展的引入不会危及闭环的稳定性

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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2006 14th Mediterranean Conference on Control and Automation

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