Robust autopilot design for a beam rider guided missile system

Proceedings of the Fifteenth National Radio Science Conference. NRSC '98 (Cat. No.98EX109) Pub Date : 1998-02-24 DOI:10.1109/NRSC.1998.711489

G. El-Sheikh, S. Bahgat

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Abstract

The paper presents some of the fundamental principles involved in missile autopilot design using the well known classical control approaches and allows a guidance engineer to grasp a sound understanding and knowledge in this field. In addition, the paper provides a robust classic controller for stabilizing the guidance system of a beam rider guided missile in addition to satisfying the performance requirements upon miss distance and demanded normal acceleration. The paper presents the analysis using an analytic approach and the simulation of a simple system from which the concluded remarks are applicable to a more general guidance system. The paper shows the effects of the sampling period, the compensator time constants and the guidance gain upon the system performance. The contribution of the paper stems from the easy presentation of a simple classic controller and shows its effect upon the system performance either analytically or through system simulation. The results are obtained using the guidance systems simulation toolbox, due the author, under the MATLAB environment.

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载束导弹系统的鲁棒自动驾驶仪设计

本文介绍了采用经典控制方法设计导弹自动驾驶仪的一些基本原理，使制导工程师对这一领域有较好的理解和认识。此外，在满足脱靶量和法向加速度性能要求的基础上，提出了一种稳定载束导弹制导系统的鲁棒经典控制器。本文采用解析方法进行了分析，并对一个简单系统进行了仿真，由此得出的结论可应用于更一般的制导系统。研究了采样周期、补偿器时间常数和制导增益对系统性能的影响。本文的贡献在于简单地介绍了一个简单的经典控制器，并通过分析或系统仿真显示了它对系统性能的影响。结果是在MATLAB环境下，利用作者设计的制导系统仿真工具箱得到的。

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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Proceedings of the Fifteenth National Radio Science Conference. NRSC '98 (Cat. No.98EX109)

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