Aircraft Ground Braking Assistant Control Based on Pilot Control Model

Dai, Yuyu; Yu, Liangyao; Song, Jian; Abi, Lanie; Zheng, Sheng

doi:10.1109/access.2020.2993173

Cited by 4 publications

(1 citation statement)

References 25 publications

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“…It was integrated into a simulation system with the fuzzy controller, the tire dynamics model and the aerodynamics model. [10]~ [11]…”

Section: The Ground Dynamics Model Of the Aircraft During Rolloutmentioning

confidence: 99%

A fuzzy control method with the optimized intelligent weight function for directional control during aircraft autoland rollout

Zhang

2023

J. Phys.: Conf. Ser.

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Aircraft landing rollout process is a complex and high non-linearity process. The mutual effects of tire dynamics, aerodynamics and multi-body dynamics should be taken into considerations. It is difficult to be accurately expressed in mathematics. Aiming at obtaining a good directional control capability during aircraft autoland rollout, a comprehensive simulation system was constructed including all those three aspects above, and a fuzzy control method with intelligent weight function was adopted which is appropriate for systems difficult to be modeled exactly. In the paper’s work, the intelligent weight function was optimized by the power function for the first time. By adjusting the exponential k, the fuzzy control rules can be conveniently and reasonably optimized. Through a set of simulations without crosswind, the optimal k was obtained. Finally, the simulation tests under conditions of 20 kn crosswind with ±5° original drift angles were conducted with the system configured by the optimal k. Accroding to the results, the optimized fuzzy controller can give a good directional control performance.

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“…It was integrated into a simulation system with the fuzzy controller, the tire dynamics model and the aerodynamics model. [10]~ [11]…”

Section: The Ground Dynamics Model Of the Aircraft During Rolloutmentioning

confidence: 99%