Trajectory-Oriented Control Using Gradient Descent: An Unconventional Approach

arXiv - EE - Systems and Control Pub Date : 2024-09-16 DOI:arxiv-2409.10662
Ramin Esmzad, Hamidreza Modares
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Abstract

In this work, we introduce a novel gradient descent-based approach for optimizing control systems, leveraging a new representation of stable closed-loop dynamics as a function of two matrices i.e. the step size or direction matrix and value matrix of the Lyapunov cost function. This formulation provides a new framework for analyzing and designing feedback control laws. We show that any stable closed-loop system can be expressed in this form with appropriate values for the step size and value matrices. Furthermore, we show that this parameterization of the closed-loop system is equivalent to a linear quadratic regulator for appropriately chosen weighting matrices. We also show that trajectories can be shaped using this approach to achieve a desired closed-loop behavior.
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使用梯度下降的轨迹导向控制:非常规方法
在这项工作中,我们介绍了一种基于梯度下降的优化控制系统的新方法,该方法利用稳定闭环动态的新表示法作为两个矩阵(即步长方向矩阵和 Lyapunov 成本函数的值矩阵)的函数。这种表述为分析和设计反馈控制法提供了一个新框架。我们证明,任何稳定的闭环系统都可以用这种形式表示,步长矩阵和值矩阵可以取适当的值。此外,我们还证明,对于适当选择的加权矩阵,闭环系统的这种参数化等价于线性二次调节器。我们还证明,使用这种方法可以塑造轨迹,从而实现理想的闭环行为。
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arXiv - EE - Systems and Control
arXiv - EE - Systems and Control
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