STABILIZED CONTROLLER DESIGN FOR ATTITUDE AND ALTITUDE CONTROLLING OF QUAD-ROTOR UNDER DISTURBANCE AND NOISY CONDITIONS | Science Publications

D. Hazry; Faizan A. Warsi; M. Hassan Tanveer; M. Kamran Joyo; S. Faiz Ahmed

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STABILIZED CONTROLLER DESIGN FOR ATTITUDE AND ALTITUDE CONTROLLING OF QUAD-ROTOR UNDER DISTURBANCE AND NOISY CONDITIONS | Science Publications

机译：扰动和噪声条件下四旋翼姿态和姿态控制的稳定控制器设计科学出版物

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> This article presents a control approach to obtain the better stabilization in attitude and altitude of quad-rotor under different disturbance conditions. In the standard Quad-rotor rotor type UAV, controlling of attitude and altitude is one of the most critical tasks and appropriate controller for stabilization of UAV is essential and necessary. These two controls under various conditions of disturbances was a field of research stimulating for the researchers. The controller proposed is contingent on the PID feedback structure with Extended Kalman Filter (EKF). From Lyapunov Stability Theorem, it is proved that quad-rotor proposed altitude control system is asymptotic as well exponentially stability. Extended Kalman Filter (EKF) is used to filter out the sensors and system noises. Finally, the simulations carried out on MATLAB and the result proved the effectiveness of proposed recommended method for stabilization of attitude and altitude of quad-rotor.

机译： >本文提出了一种控制方法，可以在不同干扰条件下获得更好的四旋翼姿态和高度稳定性。在标准的四旋翼转子型无人机中，姿态和高度的控制是最关键的任务之一，而适当的用于稳定无人机的控制器是必不可少的。这两种在各种干扰条件下的控制都是研究人员的研究热点。所建议的控制器取决于带有扩展卡尔曼滤波器（EKF）的PID反馈结构。根据李雅普诺夫稳定性定理，证明了四旋翼提出的高度控制系统具有渐近性和指数稳定性。扩展卡尔曼滤波器（EKF）用于滤除传感器和系统噪声。最后，在MATLAB上进行了仿真，结果证明了所建议的方法对于稳定四旋翼姿态和高度的有效性。

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《American journal of applied sciences》 |2013年第8期|共页
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D. Hazry; Faizan A. Warsi; M. Hassan Tanveer; M. Kamran Joyo; S. Faiz Ahmed;
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1. STABILIZED CONTROLLER DESIGN FOR ATTITUDE AND ALTITUDE CONTROLLING OF QUAD-ROTOR UNDER DISTURBANCE AND NOISY CONDITIONS | Science Publications [J] . D. Hazry, Faizan A. Warsi, M. Hassan Tanveer, American journal of applied sciences . 2013,第8期

机译：扰动和噪声条件下四旋翼姿态和姿态控制的稳定控制器设计科学出版物
2. STABILIZED CONTROLLER DESIGN FOR ATTITUDE AND ALTITUDE CONTROLLING OF QUAD-ROTOR UNDER DISTURBANCE AND NOISY CONDITIONS [J] . M. Hassan Tanveer, S. Faiz Ahmed, D. Hazry, American journal of applied sciences . 2013,第8期

机译：扰动和噪声条件下四旋翼姿态和姿态控制的稳定控制器设计
3. Disturbance And Noise Rejection Controller Design For Smooth Takeoff / Landing And Altitude Stabilization Of Quad-rotor [J] . M. Hassan Tanveer, S. Faiz Ahmed, D. Hazry, Journal of applied sciences research . 2013,第5期

机译：四旋翼平稳起飞/着陆和高度稳定的干扰与噪声抑制控制器设计
4. Anti-disturbance PD controller design for flexible spacecraft attitude stabilization [C] . Benmansour Jalal Eddine, Du Yijiang, Wu Zhong Chinese Control Conference . 2015

机译：防扰动PD控制器设计，可实现灵活的航天器姿态稳定
5. Development of a Neural PD Controller for Quad-rotors for Rejection of Wind Disturbances [D] . Li, Jisheng. 2016

机译：用于抑制风扰动的四轮转子神经PD控制器的开发
6. Online Tuning of PID Controller Using a Multilayer Fuzzy Neural Network Design for Quadcopter Attitude Tracking Control [O] . Daewon Park, Tien-Loc Le, Nguyen Vu Quynh, 2020

机译：PID控制器在线调谐使用多层模糊神经网络设计进行Quadcopter姿态跟踪控制
7. STABILIZED CONTROLLER DESIGN FOR ATTITUDE AND ALTITUDE CONTROLLING OF QUAD-ROTOR UNDER DISTURBANCE AND NOISY CONDITIONS [O] . M. Kamran Joyo, Faizan A. Warsi, D. Hazry, 2013

机译：扰动和噪声条件下四旋翼姿态和姿态控制的稳定控制器设计

STABILIZED CONTROLLER DESIGN FOR ATTITUDE AND ALTITUDE CONTROLLING OF QUAD-ROTOR UNDER DISTURBANCE AND NOISY CONDITIONS | Science Publications

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