Validation of Aerodynamic Coefficients for Flight Control System of A Medium Altitude Long Endurance Unmanned Aerial vehicle

2019 2nd International Conference of the IEEE Nigeria Computer Chapter (NigeriaComputConf) Pub Date : 2019-10-01 DOI:10.1109/NigeriaComputConf45974.2019.8949628

M. Kadiri, Ameer Mohammed, Sunday Sanusi

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引用次数: 1

Abstract

Stability and manoeuvrability have been the major trade-off in the design of aircraft both for civil or military usage. Hence, the need to design a suitable system for the control of the flight control surfaces (Elevator, Rudder and Aileron) on the aircraft. The flight control system (FCS) design helps resolve both the flying and handling qualities of the Unmanned Aerial Vehicles (UAV); it makes use of Stability Augmentation System (SAS) as a feedback mechanism tool for the FCS. Therefore, this paper discusses the validation of FCS for a Medium Altitude Long Endurance (MALE) UAV, whose service ceiling is 15,000 ft., having an endurance of up to 20 hours. A six degrees of freedom (DOF) aircraft model was used to test both the longitudinal and lateral/directional stabilities of the aircraft. Conceptual design parameters were used to generate both the dimensionless and derivatives of the MALE UAV using the AVL software. The results generated from AVL were validated using the digital DATCOM applications and both applications gave satisfactory results though with slight variations in the values of the coefficients obtained from both applications.

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某中高空长航时无人机飞控系统气动系数验证

稳定性和机动性一直是民用或军用飞机设计的主要权衡。因此，需要设计一个合适的系统来控制飞机上的飞行控制面(升降舵、升降舵和副翼)。飞行控制系统(FCS)设计有助于解决无人机(UAV)的飞行和操纵质量问题;利用增稳系统(SAS)作为FCS的反馈机制工具。因此，本文讨论了FCS对中高空长航时(MALE)无人机的验证，该无人机的服务上限为15,000英尺，续航时间长达20小时。采用六自由度(DOF)飞机模型测试了飞机的纵向和横向/方向稳定性。利用AVL软件，利用概念设计参数生成MALE无人机的无量纲和导数。利用数字DATCOM应用程序验证了AVL产生的结果，两种应用程序都给出了令人满意的结果，尽管两种应用程序获得的系数值略有不同。

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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2019 2nd International Conference of the IEEE Nigeria Computer Chapter (NigeriaComputConf)

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