DESAIN KENDALI KECEPATAN MOBILE ROBOT EMPAT RODA MEKANUM BERBASIS INVERSE KINEMATICS DAN PI ANTI WINDUP PADA KONTES ABU ROBOCON 2023

Syifa Nurul Asyfia; Arif  Abdul Aziz; Irham  Mulkan Rodiana

Penulis

Syifa Nurul Asyfia Telkom University
Arif Abdul Aziz Telkom University
Irham Mulkan Rodiana Telkom University

Kata Kunci:

ABU Robocon, roda mekanum, PI Anti Windup

Abstrak

ABU Robocon merupakan kompetisi robotik di Asia – Pasifik yang diselenggarakan oleh Asia-Pacific Broadcasting Union (ABU). Pada tahun 2023, ABU Robocon mengadakan kontes dengan tema ”Casting Flower over Angkor Wat”. Tantangan dari kompetisi tahun ini adalah rintangan pada lapangan permainan. Akan dirancang mobile robot dengan berbasis roda mekanum untuk dapat melewati permukaan bidang datar dan bidang miring dengan kemiringan 18,43° yang ada pada lapangan permainan. Dilakukan metode kendali PI Anti Windup, dalam mengendalikan kecepatan robot. Hasil dari kendali PI Anti windup menunjukkan sistem memiliki overshoot 26% dan settling time yang berada pada rentang 0.6detik hingga 1.7detik. Robot memiliki tingkat keberhasilan melewati rintangan bidang miring sebesar 75%.

Kata kunci:ABU Robocon, roda mekanum, PI Anti Windup

Referensi

H. A. H. R. M. A. G. Aghus Sofwan, “Development of Omni-Wheeled Mobile Robot Based-on Inverse Kinematics and Odometry,” pp. 144 - 145, 2019.

D. W. Y. H. Changshun Wang, “Neural Network Based Adaptive Dynamic Surface Control for Omnidirectional Mobile Robots Tracking Control with Full-state Constraints and Input Saturation,” International Journal of Control, Automation and Systems 19, no. 21, pp. 4068 - 4077, 2021.

D. Dong, Y. Fang dan Z. Zhou, “Omnidirectional Mobile Robot Structure Design,” RICAI 2019: Proceedings of the 2019 International Conference on Robotics, Intelligent Control and Artificial Intelligence, pp. 195 - 199, 2019.

T. Bräunl, Embedded Robotics, Berlin: Springer, 2008.

L. Tagliavini, G. Colucci, A. Botta, P. Cavallone, L. Baglieri dan G. Quaglia, “Wheeled Mobile Robots: State of the Art Overview and Kinematic Comparison Among Three Omnidirectional Locomotion Strategies,” Journal of Intelligent & Robotic Systems, 2022.

A. I. A. N. K. N. Wan Mohd Nafis Wan Lezaini, “Integration of PI-Anti-windup and Fuzzy Logic Control with External Derivative Solution for Leg’s Robot Angular Joint Precision,” Proceedings of the 10th National Technical Seminar on Underwater System Technology, no. 2018, pp. 161 - 171, 2018.

MATLAB, "Anti - Windup Control Using PID Controller Block," The Mathworks Inc., 2023. [Online]. Available: https://au.mathworks.com/help/simulink/slref/anti-windup-control-using-a-pid-controller.html. [Accessed 8 Agustus 2023].

Asia-Pacific Broadcasting Union(ABU), ABU Asia-Pacific Robot Contest 2023 Phnom Penh, Cambodia Rule Book Theme and Rules Casting Flowers over Angkor Wat, Phnom Penh: ABU Robocon 2023, 2023.

N. Zijie, L. Qiang, L. Qiang dan S. Zhijun, “Fuzzy Control Strategy for Course Correction of Omnidirectional Mobile Robot,” International Journal of Control, Automation and Systems 17, pp. 2354 - 2364, 2019.

D. U. Rijalusalam dan Iswanto, “Implementation Kinematics Modeling and Odometry of Four Omni Wheel Mobile Robot on The Trajectory Planning and Motion Control Based Microcontroller,” Journal of Robotics and Control, vol. 2, no. 5, p. 450, 2021.

E. Savaee, A. R. Hanzaki dan Y. Anabestani, “Kinematic Analysis and OdometryBased Navigation of an Omnidirectional Wheeled Mobile Robot on Uneven Surfaces,” Journal of Intelligent & Robotic Systems, vol. 13, no. 108, p. 3, 2023.

J. S. L. Leong, K. T. K. Teo dan H. P. Yoong, “Four Wheeled Mobile Robots: A Review,” 2022 IEEE International Conference on Artificial Intelligence in Engineering and Technology (IICAIET), 2022.

DESAIN KENDALI KECEPATAN MOBILE ROBOT EMPAT RODA MEKANUM BERBASIS INVERSE KINEMATICS DAN PI ANTI WINDUP PADA KONTES ABU ROBOCON 2023

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