气动伺服弹性系统的数字主动控制律综合

V. Mukhopadhyay
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引用次数: 3

摘要

本文提出了一种综合气动伺服弹性系统数字主动控制律的公式,该系统通常采用大阶方程建模,以便准确地表示刚体和柔体模式、非定常气动力、作动器动力学和阵风谱。该控制律预计将满足动态载荷、响应、致动器偏转和速率限制等多种设计要求,并保持一定的稳定裕度,同时还应足够简单,可以由机载数字微处理器实现。在满足设计负荷、响应和稳定裕度的一组不等式约束条件下,通过更新控制律的选定自由参数,实现线性二次高斯型代价函数的最小化。一个稳定的经典控制律或基于估计量的全阶或降阶控制律可以作为初始设计的起点。为了便于快速收敛,对数字控制律设计变量的成本函数和约束条件的梯度进行了解析推导。选择的设计响应可以被视为约束,而不是将它们集中到成本函数中,以满足单个均方根负载和响应限制。为了提高稳定性和鲁棒性,还对最小奇异值要求施加了约束。
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Digital Active Control Law Synthesis for Aeroservoelastic Systems
This paper presents a formulation for synthesis of digital active control laws for aeroservoelastic systems, which are typically modeled by large order equations in order to accurately represent the rigid and flexible body modes, unsteady aerodynamic forces, actuator dynamics, and gust spectra. The control law is expected to satisfy multiple design requirements on the dynamic loads, responses, actuator deflection and rate limitations, as well as maintain certain stability margins, yet should be simple enough to be implemented by an onboard digital microprocessor. The synthesis procedure minimizes a linear quadratic Gaussian type cost function, by updating selected free parameters of the control law, while satisfying a set of inequality constraints on the design loads, responses and stability margins. A stable classical control law or an estimator based full or reduced order control law can be used as an initial design starting point. The gradients of the cost function and the constraints, with respect to the digital control law design variables are derived analytically, to facilitate rapid convergence. Selected design responses can be treated as constraints instead of lumping them into the cost function, in order to satisfy individual root-mean-square load and response limitations. Constraints are also imposed on the minimum singular value requirements for stability robustness improvement.
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