Longitudinal Flight Multi-Control Blending Verification Using COTS Based Simulation

2018 IEEE 18th International Power Electronics and Motion Control Conference (PEMC) Pub Date : 2018-08-01 DOI:10.1109/EPEPEMC.2018.8521925

K. Fellah, M. Guiatni, T. Fricke, F. Holzapfel

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Abstract

This paper propose the design of a longitudinal flight multi-control blending autopilot system which aims to control both of the airspeed, the altitude and the pitch motion of an aircraft. The proposed controller has to perform different tasks during a flight mission such as holding altitude and following a desired flight path. The simulation is performed using the BADA database and Commercial-off-the-shelf (COTS) platform named ‘Xplane’ dedicated to flight simulation. This later gives the possibility to integrate different components (aircraft, UAV s, Ground vehicles, missiles…). These components are integrated in simulation based on both their dynamics and their virtual models. In this paper, the transition between the different flight modes in ensured for optimum handling qualities using the energy angle. We defined the command variables blend between attitude and flight path control. The obtained results for altitude and airspeed hold modes and pitch control demonstrate the satisfactory performances even in presence of external distubance.

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基于COTS仿真的纵向飞行多控制混合验证

提出了一种同时控制飞机空速、高度和俯仰运动的纵向飞行多控制混合自动驾驶系统的设计。所提出的控制器必须在飞行任务期间执行不同的任务，例如保持高度和遵循期望的飞行路径。仿真是使用BADA数据库和名为“Xplane”的商用现货(COTS)平台进行的，该平台专门用于飞行仿真。这样就有可能集成不同的组件(飞机、无人机、地面车辆、导弹……)。基于这些组件的动力学和虚拟模型，将它们集成在仿真中。在本文中，利用能量角保证了不同飞行模式之间的转换，以获得最佳的操纵品质。我们定义了混合姿态和航迹控制的命令变量。所获得的高度保持模式、空速保持模式和俯仰控制模式在存在外距离的情况下也具有令人满意的性能。

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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2018 IEEE 18th International Power Electronics and Motion Control Conference (PEMC)

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