Puck Collect Robot Challenge: aplicación de control difuso y cinemática en robot móvil diferencial y omnidireccional
DOI:
https://doi.org/10.52143/2346139X.645Keywords:
Autonomous Robot, Artificial Vision, Image Processing, Color Recognition, Fuzzy Logic, Fuzzy Control, KinematicsAbstract
Puck Collect Robot Challenge is a contest in which two autonomous robots have the task of collecting pucks of one color (red for one, blue for the other) and transfer them to a base located in a corner of the field that is 250 x 250 cm of the same color assigned. The one that brings more pucks to the base, or in the case of carrying out the same number, the one that makes faster, wins. This article presents the implementation of an autonomous robot where diffuse control and kinematics concepts are applied to route the robot to the disk and then to the base.
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References
Cyberbotics Ltd. (2016a). Webots User Guide: release 8.4.0, Lausanne, Switzerland.
Cyberbotics Ltd. (2016b). Webots Reference Manual: release 8.4.0, Lausanne, Switzerland.
Cyberbotics Ltd. (2016c). Webots (release 8.4.0): 3D mobile robot simulation software, PRO license. Lausanne, Switzerland.
Del Brío, B. y Molina, A. (2002). Redes neuronales y sistemas difusos. Bogotá: Alfaomega.
Ecured (2019a) Velocidad angular. Recuperado de https://www.ecured.cu/Velocidad_angular
Ecured (2019b). Velocidad lineal. Recuperado de: https://www.ecured.cu/Velocidad_lineal
Gracia, L. I. (2006). Modelado cinemático y control de robots móviles con ruedas. Tesis Doctoral, Universidad Politécnica de Valencia, Valencia, España. Recuperado de https://pdfs.semanticscholar.org/4e2c/9529ca8ab327fa369e016c4a2cb0b932d1ce.pdf
ITed Studio. (2010). HC-05 -Bluetooth to Serial Port Module. Recuperado de https://www.estudioelectronica.com/wp-content/uploads/2018/09/istd016A.pdf
Martínez, S. y Sisto, R. (2009). Control y comportamiento de robots omnidireccionales. Proyecto de grado, Estado del arte. Universidad de la República. Montevideo, Paraguay. Recuperado de https://www.fing.edu.uy/inco/grupos/mina/pGrado/easyrobots/doc/SOA.pdf
Maulana, E., Muslim, M., Hendrayawan, V. (2015) Inverse kinematic implementation of four-wheels mecanum drive mobile robot using stepper motors. International Seminar on Intelligent Technology and Its Applications (ISITIA) (pp. 51-56). IEEE.
Ollero, A. (2001). Robótica: manipuladores y robots móviles. Marcombo.
RobotChallenge (2019). Puck Collect Rules. Recuperado de http://www.robotchallenge.org.cn/doc/en/RC-PuckCollect.pdf
SanDoRobotics. (2018). Batería LiPo Turnigy 500mAh 2S 20C. Recuperado de https://sandorobotics.com/producto/t500-2s/ Tower-Pro. (2017). MG996R High Torque Metal Gear Dual Ball Bearing Servo. Recuperado de https://www.electronicoscaldas.com/datasheet/MG996R_Tower-Pro.pdf
Tzafestas, S. G. (2013). Introduction to mobile robot control. Elsevier.
Verma, P. (2017). Smartphone Controlled Robot. Recuperado de https://thestempedia.com/project/basic-differential-drive-robot/
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