输出反馈合成轨道几何:矩阵和 LQG 直接策略优化

IF 2.4 Q2 AUTOMATION & CONTROL SYSTEMS IEEE Control Systems Letters Pub Date : 2024-06-14 DOI:10.1109/LCSYS.2024.3414962
Spencer Kraisler;Mehran Mesbahi
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引用次数: 0

摘要

我们考虑了线性-二次高斯(LQG)设置的直接策略优化。在过去几年中,人们已经认识到,与 LQG 相关的动态输出反馈控制器具有错综复杂的几何形状,尤其是存在退化静止点,这阻碍了梯度方法的使用。为了应对这些挑战,我们在这封信中采用了动态输出反馈控制器空间的系统论坐标不变黎曼度量,并开发了直接优化 LQG 策略的黎曼梯度下降法。然后,我们继续证明,在坐标变换的模量下,此类控制器的轨道空间具有黎曼商流形结构。这种几何结构具有独立的意义,它提供了一种有效的方法来推导 LQG 的直接策略优化算法,该算法具有局部线性收敛率保证。随后,我们证明,与普通梯度下降法相比,所提出的方法具有更快、更稳健的数值性能。
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Output-Feedback Synthesis Orbit Geometry: Quotient Manifolds and LQG Direct Policy Optimization
We consider direct policy optimization for the linear-quadratic Gaussian (LQG) setting. Over the past few years, it has been recognized that the landscape of dynamic output-feedback controllers of relevance to LQG has an intricate geometry, particularly pertaining to the existence of degenerate stationary points, that hinders gradient methods. In order to address these challenges, in this letter, we adopt a system-theoretic coordinate-invariant Riemannian metric for the space of dynamic output-feedback controllers and develop a Riemannian gradient descent for direct LQG policy optimization. We then proceed to prove that the orbit space of such controllers, modulo the coordinate transformation, admits a Riemannian quotient manifold structure. This geometric structure-that is of independent interest-provides an effective approach to derive direct policy optimization algorithms for LQG with a local linear rate convergence guarantee. Subsequently, we show that the proposed approach exhibits significantly faster and more robust numerical performance as compared with ordinary gradient descent.
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来源期刊
IEEE Control Systems Letters
IEEE Control Systems Letters Mathematics-Control and Optimization
CiteScore
4.40
自引率
13.30%
发文量
471
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