Robust Non-Linear Dynamic Inversion Control System to Improve Stability of Large Aircraft in Crosswind

Muhammad Ihtisham Babar, Ali Abbas Kapadia, Waseeq Siddiqui
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Abstract

This paper presents a detailed description of a flight stability and control system, along with the original and improved lateral response of large aircraft in crosswind as experienced during landing. A robust state-dependent non-linear dynamic system is designed and used in the proposed approach to improve aircraft stability in crosswind disturbances. Furthermore, to demonstrate the effectiveness of the designed system, two large aircraft, the Boeing 747 and the Galaxy C-5, are used as a baseline, as both are widely used in the aviation industry. The response of the non-linear Dynamic Inversion is also demonstrated for varying crosswind behavior and magnitudes. Another benefit of the Non-Linear Dynamic Inversion control system is in the creation of an autopilot system which is achieved through non-zero state tracking for an aircraft. It is concluded that by incorporating the designed robust Non-Linear Dynamic Inversion, as a stability and control system for both these aircraft, an improved aircraft response and behavior of control surfaces can be obtained.
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提高大型飞机侧风稳定性的鲁棒非线性动态反演控制系统
本文详细介绍了一种飞行稳定性和控制系统,以及大型飞机在着陆时所经历的原始和改进的侧风横向响应。设计了一个鲁棒的状态相关非线性动力系统,并将其应用于该方法中,以提高飞机在侧风干扰下的稳定性。此外,为了证明所设计系统的有效性,以波音747和Galaxy C-5两架大型飞机为基准,因为这两架飞机在航空工业中都被广泛使用。非线性动力反演的响应也证明了不同的侧风行为和震级。非线性动态反演控制系统的另一个好处是通过对飞机的非零状态跟踪来创建自动驾驶系统。结果表明,将所设计的鲁棒非线性动态反演作为两种飞机的稳定和控制系统,可以获得更好的飞机响应和控制面行为。
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