Modeling and Implementation of Hexacopter Guidance System Using Fuzzy Logic Control Under Wind Disturbance

2018 IEEE 8th International Conference on System Engineering and Technology (ICSET) Pub Date : 2018-10-01 DOI:10.1109/ICSENGT.2018.8606399

Meti Megayanti, Y. P. Nugraha, Indri Purwita Sary, E. Hidayat, B. Trilaksono

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引用次数: 2

Abstract

Recently, research in Unmanned Aerial Vehicle (UAV) field is growing rapidly due to their evolving needs in many implemented sectors. In this research, we use hexacopter for monitoring contaminated chemical-radioactive-nuclear (CRN ) area. The hexacopter need high altitude and attitude stabilization to tracking way point precisely. The PID guidance system with FLC intervention is used to produce correction signal to improve the tracking performance of the hexacopter. Software in the loop (SITL) simulation using Matlab and Robotic Operating System (ROS) was conducted to verify Fuzzy-PID intervention guidance performance before implementation. Based on simulation and experimental result, it shown that the tracking performance of the hexacopter in terms faster transient response, smaller error steay state, faster settling time, better static and dynamics performance and robust under wind disturbance for altitude and attitude have been improved by using Fuzzy-PID intervention algorithm.

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风扰动下六旋翼机模糊控制制导系统建模与实现

近年来，由于无人机在许多实施领域的需求不断变化，无人机领域的研究正在迅速发展。在本研究中，我们使用六旋翼机对化学-放射性-核(CRN)污染区域进行监测。六翼飞行器需要高度和姿态稳定才能精确跟踪航路点。采用FLC干预的PID制导系统产生校正信号，提高六旋翼机的跟踪性能。在实施前，利用Matlab和机器人操作系统(ROS)进行了软件在环(SITL)仿真，验证了Fuzzy-PID干预制导的性能。仿真和实验结果表明，采用Fuzzy-PID干预算法后，六旋翼机的瞬态响应更快，稳态误差更小，沉降时间更快，静动态性能更好，在高度和姿态风干扰下具有鲁棒性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 IEEE 8th International Conference on System Engineering and Technology (ICSET)

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