Wideband Linear Quadratic Control of a Gyro Stabilized Electro-Optical Sight System

1986 American Control Conference Pub Date : 1987-08-01 DOI:10.1109/MCS.1987.1105331

W. J. Bigley, V. Rizzo

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引用次数: 26

Abstract

This paper describes some of the results obtained in a multiyear research effort to develop wideband, high accuracy tracking, weapon-pointing control systems in state-of-the-art, microprocessor-based, mobile weapon control systems. Linear quadratic (LQ) control laws, a subset of Modern Control Theory, were applied to an existing weapon system at the hardware level to optimize plant performance in the presence of certain non-linearities and mechanical resonance constraints. This hardware approach enabled us to apply a powerful form of optimal control theory to the development of fast response, large scale weapon systems, without the degrading limitations usually associated with the plant hardware. Two different optimal control techniques were developed and demonstrated. One LQ control technique was applied to the weapon-pointing rate loops, and the results are reported in NAECON 1982 (1). The other technique, described in this paper, was used to control the electro-optical target tracking sensor subsystem. This paper also describes a practical design procedure, based on an extensive library of computer programs, which was developed to analyze, simulate, program, and implement deterministic type modern control systems with higher order dynamics.

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陀螺稳定光电瞄准系统的宽带线性二次控制

本文介绍了基于微处理器的移动武器控制系统中宽带、高精度跟踪、武器指向控制系统多年来的一些研究成果。将线性二次型(LQ)控制律作为现代控制理论的一个子集，应用于现有武器系统的硬件层面，在存在某些非线性和机械共振约束的情况下优化系统性能。这种硬件方法使我们能够将最优控制理论的强大形式应用于快速响应的大型武器系统的开发，而没有通常与工厂硬件相关的退化限制。开发并演示了两种不同的最优控制技术。一种LQ控制技术被应用于武器指向速率回路，结果在NAECON 1982(1)中报道。另一种技术，在本文中描述，被用于控制光电目标跟踪传感器子系统。本文还描述了一个基于广泛的计算机程序库的实际设计过程，该程序用于分析，模拟，编程和实现具有高阶动力学的确定性型现代控制系统。

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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1986 American Control Conference

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