Simulation Model of the Scanner Servocontrols for the Orientation of a Fighter Aircraft by Using the Bond Graph Technique

2010 2nd International Conference on Computational Intelligence, Communication Systems and Networks Pub Date : 2010-07-28 DOI:10.1109/CICSyN.2010.67

M. L. Martínez, G. Romero, J. Maroto, J. Félez

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引用次数: 3

Abstract

Nowadays the use of complex models has increasedthe requirements of the simulation tools and techniques forworking and analyzing with different domains at the sametime. This work focuses on the study of the Scannerservocontrols of a fighter aircraft. The model has the feature ofintegrating various physical domains into the same system(electrical, mechanical and system control environments) withdifferent dimensions in each domain. The technique used is theBond Graph (BG), which is typically used in fields wheredifferent physical domains coexist, just as in the case we aredealing with, where such domains are fundamental. At thebeginning of the study, the different coordinate references areintroduced and the physical subsystems are also described.After this the different subsystems are presented in the form ofBG submodels one by one and the global Multibond Graph(MBG) model is displayed. Lastly, an example of simulation is shown and some important conclusions are reached.

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基于键合图技术的战斗机扫描伺服定向仿真模型

如今，复杂模型的使用增加了对仿真工具和技术的要求，以同时处理和分析不同的领域。本文主要研究了某型战斗机的扫描伺服控制系统。该模型的特点是将不同的物理领域(电气、机械和系统控制环境)整合到同一个系统中，每个领域都有不同的维度。所使用的技术是键图(BG)，它通常用于不同物理域共存的领域，就像我们正在处理的情况一样，这些域是基本的。在研究开始时，介绍了不同的坐标参考，并对物理子系统进行了描述。在此基础上，将各子系统以bg子模型的形式一一表示出来，形成全局多键图(Multibond Graph, MBG)模型。最后给出了一个仿真实例，得出了一些重要的结论。

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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2010 2nd International Conference on Computational Intelligence, Communication Systems and Networks

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