ADAPTIVE NEURAL NETWORK CONTROLLER DESIGN FOR BLENDED-WING UAV WITH COMPLEX DAMAGE

机译：具有复杂损伤的双翼无人机的自适应神经网络控制器设计

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This paper presents neural network controller design for complex damage to a blended wing UAV (Unmanned Aerial Vehicle): partial loss of main wing and vertical tail. Longitudinal/lateral axis instability and the change of flight dynamics is investigated via numerical simulation. Based on this, neural network based adaptive controller combined with feedback linearization is designed in order to compensate for the complex damage. Numerical simulation verifies that the instability from the complex damage of the UAV can be stabilized via the proposed adaptive controller.

机译：本文提出了一种神经网络控制器设计，该设计可对混合翼UAV（无人飞行器）造成复杂损害：主翼和垂直尾翼部分损失。通过数值模拟研究了纵向/横向轴的不稳定性以及飞行动力学的变化。在此基础上，设计了基于神经网络的自适应控制器与反馈线性化相结合，以补偿复杂的损伤。数值仿真证明，通过提出的自适应控制器，可以稳定无人机的复杂损伤造成的不稳定性。

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《Congress of the International Council of the Aeronautical Sciences;International Council of the Aeronautical Sciences》|2014年|1-8|共8页
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Kijoon Kim; Jongmin Ahn; Seungkeun Kim; Jinyoung Suk;
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Neural network Controller; Blended wing body; Complex damage;

机译：神经网络控制器;;混合翼体;;复杂损伤;
入库时间 2022-08-26 15:19:42

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1. A new methodology for the design of adaptive controllers using “state-strict passivity”: Application to neural network controllers [J] . Commuri Sesh, Lewis Frank L. Kybernetika . 1997,第1期

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2. Adaptive controller design for spacecraft formation flying using sliding mode controller and neural networks [J] . Jonghee Bae, Youdan Kim Journal of the Franklin Institute . 2012,第2期

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3. Neural Network-based Robust Adaptive Certainty Equivalent Controller for Quadrotor UAV with Unknown Disturbances [J] . Doukhi Oualid, Lee Deok Jin International Journal of Control, Automation, and Systems . 2019,第9期

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4. ADAPTIVE NEURAL NETWORK CONTROLLER DESIGN FOR BLENDED-WING UAV WITH COMPLEX DAMAGE [C] . Kijoon Kim, Jongmin Ahn, Seungkeun Kim, Congress of the International Council of the Aeronautical Sciences . 2014

机译：适应性神经网络控制器设计，用于复杂损坏的混纺无人机
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ADAPTIVE NEURAL NETWORK CONTROLLER DESIGN FOR BLENDED-WING UAV WITH COMPLEX DAMAGE

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