Optimal H2 and H? Control of Extremely Large Segmented Telescopes

AIAA Guidance, Navigation, and Control Conference Pub Date : 2012-08-13 DOI:10.2514/6.2012-4529

Z. Kassas, R. Bishop

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引用次数: 1

Abstract

Extremely large telescopes (ELTs) are the next generation of ground-based reflecting telescopes of optical wavelengths. ELTs possess an aperture of more than 20 meters and share a number of common features, particularly the use of a segmented primary mirror and adaptive optics systems. In 2005, the European Southern Observatory introduced a new giant telescope concept, named the European Extremely Large Telescope (E-ELT), which is scheduled for operation in 2018. In 2009, a feasibility study proved the feasibility of the real-time (RT) control system architecture for the E-ELT’s primary mirror, which consists of nearly 1,000 mirror segments with 3,000 actuators and 6,000 sensors. The goal of the RT control system was to maintain a perfectly aligned field of mirrors at all times with a loop-time of 1 ms. The study assumed a prescribed controller algorithm. This paper prescribes two such controllers. In this respect, optimal controller designs for the primary mirror, where optimality is formulated in the H2 and H∞ frameworks are derived. Moreover, the designed controllers are simulated to show that the desired performance, which is defined in terms of imaging requirements, is met.

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最优H2和H?超大分段望远镜的控制

超大型望远镜(elt)是下一代地面反射望远镜。elt具有超过20米的孔径，并具有许多共同特征，特别是使用分段主镜和自适应光学系统。2005年，欧洲南方天文台推出了一种新的巨型望远镜概念，名为欧洲超大望远镜(E-ELT)，计划于2018年投入使用。2009年，一项可行性研究证明了E-ELT主镜实时(RT)控制系统架构的可行性，主镜由近1000个镜段、3000个致动器和6000个传感器组成。RT控制系统的目标是在任何时候都以1ms的循环时间保持镜场的完美对齐。本研究假设一个规定的控制器算法。本文规定了两个这样的控制器。在这方面，主镜的最优控制器设计，其中最优性是在H2和H∞框架中制定的。此外，对所设计的控制器进行了仿真，以证明满足根据成像要求定义的期望性能。

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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AIAA Guidance, Navigation, and Control Conference

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