@inproceedings{Helosman2012Quadricopterb,
title = {Simulation Platform for Quadricopter: Using Matlab/Simulink and X-Plane},
author = {Helosman V Figueiredo and Osamu Saotome},
url = {https://www.sige.ita.br/edicoes-anteriores/2012/st/IV_2.pdf},
year = {2012},
date = {2012-01-01},
booktitle = {Simp\'{o}sio de Aplica\c{c}\~{o}es Operacionais em \'{A}reas de Defesa 2012 (SIGE2012)},
abstract = {The unmanned aerial vehicles (UAVs) has grown in military and civilian areas of application. Several industries (automotive, military, factories, space, etc.) use robots for dangerous and repetitive tasks. This paper is dedicated to a special type of aerial platforms, the quadricopter. UAVs that has been highlighted by having flight characteristics and construction only, for example, hovering flight, vertical takeoff and landing, high maneuverability, low speed flight, and simple mechanics. This work proposes a tool for simulation and visualization of an aerial air-type quadricopter robots, using the flight simulator X-Plane 9, Matlab and Simulink. The aircraft under study is the so-called ITA-001, developed by the quadricopter study group the Aeronautical Institute of Technology \textendash ITA.},
keywords = {Matlab, Quadricopter, Simulation, X-Plane I INTRODUCTION},
pubstate = {published},
tppubtype = {inproceedings}
}
The unmanned aerial vehicles (UAVs) has grown in military and civilian areas of application. Several industries (automotive, military, factories, space, etc.) use robots for dangerous and repetitive tasks. This paper is dedicated to a special type of aerial platforms, the quadricopter. UAVs that has been highlighted by having flight characteristics and construction only, for example, hovering flight, vertical takeoff and landing, high maneuverability, low speed flight, and simple mechanics. This work proposes a tool for simulation and visualization of an aerial air-type quadricopter robots, using the flight simulator X-Plane 9, Matlab and Simulink. The aircraft under study is the so-called ITA-001, developed by the quadricopter study group the Aeronautical Institute of Technology – ITA.
