A Robust Control Law for a Nonlinear Altitude-Azimuth Telescopic System

机译：非线性高度-方位角伸缩系统的鲁棒控制律

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A modeling and Robust Control Strategy is presented for the pointing mechanism of a typical Altitude-Azimuth telescope. The nonlinear control problem is solved in two stages. In the first, feedback linearization is used to obtain a linear system, with possible uncertainty present owing to lack of exact cancelation in the feedback linearization stage. With these uncertainties, a Robust Control law for this linear system is developed, guarantying stable and robust convergence to any desired altitude-azimuth value for pointing, from any initial altitude-azimuth value. Results obtained through simulation are shown as means of validating the proposal.

机译：针对典型的高度-方位望远镜的指向机制，提出了一种建模和鲁棒控制策略。非线性控制问题分两个阶段解决。首先，使用反馈线性化来获得线性系统，由于在反馈线性化阶段缺少精确的抵消，因此可能存在不确定性。有了这些不确定性，就开发出了针对该线性系统的鲁棒控制定律，从而保证了从任何初始高度-方位角值到指向的任何期望高度-方位角值的稳定且鲁棒的收敛。通过仿真获得的结果显示为验证提案的手段。

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《2011 International Conference on Process Automation, Control and Computing》|2011年|p.1-6|共6页
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Sharma Sachin; Nabi Mashuq un;
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中图分类计算技术、计算机技术;
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4. A Robust Control Law for a Nonlinear Altitude-Azimuth Telescopic System [C] . Sharma Sachin, Nabi Mashuq un International Conference on Process Automation, Control and Computing . 2011

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A Robust Control Law for a Nonlinear Altitude-Azimuth Telescopic System

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