Planificación de trayectorias para quadrotor de bajo costo mediante software educativo

This article is presented as a consultation paper for undergraduate and postgraduate students in the engineering airfield, which requires an implementation of fast and efficient control of an aerial robot. It aims tat presenting the design and implementation of a trajectory planner for a low cost qu...

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Autores:
Cáceres, Edgar Andrés Gutiérrez
Tipo de recurso:
Fecha de publicación:
2018
Institución:
Universidad Santo Tomás
Repositorio:
Repositorio Institucional USTA
Idioma:
spa
OAI Identifier:
oai:repository.usta.edu.co:11634/12277
Acceso en línea:
http://revistas.ustatunja.edu.co/index.php/ingeniomagno/article/view/1506
Palabra clave:
engineering, physics
Ar.drone; coordinates; educational software; Quadrotor; trajectory; speed
ingenieria, fisica
Ar. drone; Coordenadas; Software Educativo; Quadrotor; Trayectoria; Velocidad
engenharia, física
Ar.drone; Coordenadas; Software educacional; Quadrotor; Trajectory; Speed
Rights
License
Copyright (c) 2018 Ingenio Magno
Description
Summary:This article is presented as a consultation paper for undergraduate and postgraduate students in the engineering airfield, which requires an implementation of fast and efficient control of an aerial robot. It aims tat presenting the design and implementation of a trajectory planner for a low cost quadrotor used as a research object. In addition, you will find that a conceptualization of the necessary mathematical analysis is made corresponding to the quadrotor-type multirotors, the control strategy, the calculation of the point-to-point trajectory planner with a trapezoidal velocity profile built in educational software and later the analysis of the results obtained in practice through an experimental validation of the same in the platform Ar.drone2 of the company Parrot vs the simulation carried out. These results will allow determining the effectiveness of the trajectory planner according to the computed coordinates XYZ, for this investigation it was not interacted with the orientation of the aerial robot, that is, there is no control over the rotation with respect to the Z-axis.