Optimal feedback control: Foundations, examples, and experimental results for a new approach

Ross  IM; Sekhavat  P; Fleming  AGong  Q

首页> 外文期刊>Journal of Guidance, Control, and Dynamics: A Publication of the American Institute of Aeronautics and Astronautics Devoted to the Technology of Dynamics and Control >Optimal feedback control: Foundations, examples, and experimental results for a new approach

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Optimal feedback control: Foundations, examples, and experimental results for a new approach

机译：Optimal feedback control: Foundations, examples, and experimental results for a new approach

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Typical optimal feedback controls are nonsmooth functions. Nonsmooth controls raise fundamental theoretical problems on the existence and uniqueness of state trajectories. Many of these problems are frequently addressed in control applications through the concept of a Filippov solution. In recent years, the simpler concept of a pi solution has emerged as a practical and powerful means to address these theoretical issues. In this paper, we advance the notion of Caratheodory-pi solutions that stem from the equivalence between closed-loop and feedback trajectories. In recognizing that feedback controls are not necessarily closed-form expressions, we develop a sampling theorem that indicates that the Lipschitz constant of the dynamics is a fundamental sampling frequency. These ideas lead to a new set of foundations for achieving feedback wherein optimality principles are interwoven to achieve stability and system performance, whereas the computation of optimal controls is at the level of first principles. We demonstrate these principles by way of pseudospectral methods because these techniques can generate Caratheodory-pi solutions at a sufficiently fast sampling rate even when implemented in a MATLAB (R) environment running on legacy computer hardware. To facilitate an exposition of the proposed ideas to a wide audience, we introduce the core principles only and relegate the intricate details to numerous recent references. These principles are then applied to generate pseudospectral feedback controls for the slew maneuvering of NPSAT1, a spacecraft conceived, designed, and built at the Naval Postgraduate School and scheduled to be launched in fall 2007.

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《Journal of Guidance, Control, and Dynamics: A Publication of the American Institute of Aeronautics and Astronautics Devoted to the Technology of Dynamics and Control》 |2008年第2期|307-321|共15页
作者
Ross IM; Sekhavat P; Fleming AGong Q;
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作者单位

USN, Postgrad Sch, Dept Mech & Astronaut Engn, Monterey, CA 93943 USA;

USN, Washington, DC 20032 USA;

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正文语种英语
中图分类航空;
关键词
REUSABLE LAUNCH VEHICLES; FINITE-TIME STABILITY; TRAJECTORY OPTIMIZATION; PSEUDOSPECTRAL METHODS; LINEARIZABLE SYSTEMS; LYAPUNOV FUNCTIONS; PERTURBING FORCES; ASCENT GUIDANCE; PRODUCT SPACES; STABILIZATION;

Optimal feedback control: Foundations, examples, and experimental results for a new approach

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