基于积分状态反馈滑模控制的飞机着陆

2019 International Conference on Electrical, Communication, and Computer Engineering (ICECCE) Pub Date : 2019-07-01 DOI:10.1109/icecce47252.2019.8940802

A. Mahmood, A. I. Bhatti, Bilal A. Siddique

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引用次数: 1

摘要

着陆是一个令人望而生畏的控制设计问题，对飞行员的精度要求很高。在飞机着陆稳定性控制的各种状态中，着陆时需要处理的高度是其中之一。由于考虑了飞机的线性化模型，并将其用于高度控制设计。为了在滑翔和耀斑阶段获得最佳的跟踪性能，采用了基于单位向量方法的积分状态反馈滑模控制(ISSMC)。为了消除响应高度与参考高度之间的误差，采用了动态需求一阶滤波器。与PID控制相比，已经注意到性能的显着改善。将积分状态反馈滑模控制与PID控制在着陆阶段进行比较，ISSMC在跑道着陆过程中产生最佳的滑行和耀斑机动响应。

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Landing of Aircraft Using Integral State Feedback Sliding Mode Control

Landing is daunting control design problem because it demands high accuracy and precision by pilot. Among the various states to control for stability and landing in an Aircraft, one is its altitude to handle during landing. Since the linearized model of aircraft is considered and is used for altitude control design. For best tracking performance during glide and flare phase, Integral State feedback Sliding Mode Control (ISSMC) is applied, which is based on unit vector approach. To eliminate error between responded altitude and referenced altitude, a dynamic demand first order filter is used. There has been noted a significant improvement in performance as compared with PID control. When comparing the Integral State feedback Sliding Mode Control with PID during landing phase, the ISSMC yields the best response of glide and flare maneuverability for smooth touch down during landing on runway.

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2019 International Conference on Electrical, Communication, and Computer Engineering (ICECCE)

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