Study of the Dynamics of Automated Guided Vehicle Using Mecanum Omnidirectional Wheel
Main Article Content
Abstract
The paper presents the result of the dynamics simulation of automated guided vehicles (AGVs) using four Mecanum omnidirectional wheels when the tilt angle of each wheel’s roller is changed. Mecanum omnidirectional wheels have the ability to work flexibly, but operators are generally concerned about the vehicle’s efficiency issues. The performance of the wheel significantly influences the extensive application range of the vehicle. The method of modeling automated guided vehicles and Mecanum wheels is applied in order to build its kinematic model and dynamic model with omnidirectional wheels when the roller’s angle of incline is changed. Based on Lagrange’s equation of type II, the equation of motion of the vehicle is established in accordance with the actual situation that the vehicle is being applied. The rolling friction coefficient and the adhesive coefficient of Mecanum wheels were measured experimentally on different road surfaces, including concrete, wood, brick, and stone. The study's findings successfully address efficiency challenges in vehicles using omnidirectional wheels when varying the incline angle of each roller and applying fuzzy logic for trajectory control in autonomous vehicles.
Keywords
Automated guided vehicles (AGVs), Fuzzy logic control, Lagrange’s equation type II, Mecanum omnidirectional wheel
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
References
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[2] Vo Phong Thien, Design of a self-propelled robot that tracks activities in the factory, M.S. thesis, Ho Chi Minh City University of Technology 2017.
[3] Florentina Adascalitei, Ioan Doroftei, Practical applications for mobile robots based on Mecanum wheels, The Romanian Review Precision Mechanics, Optics & Mechatronics, No. 40, 2011.
[4] Felix Becker, B. Adamov, I. Zeidis, K. Zimmermann, An approach to the kinematics and dynamics of a fourwheeled mecanum vehicles, Scientific journal of IFTOMM Problems of Mechanics no 2(55), International conference mechanics, 2014.
[5] Z. Hendzel and L. Rykała, Modelling of dynamics of a wheeled mobile robot with mecanum wheels with the use of lagrange equations of the second kind, Int. J. of Applied Mechanics and Engineering, vol.22, No.1, pp.81-99, 2017. https://doi.org/10.1515/ijame-2017-0005
[6] Matthieu Lamy, Mechanical development of an automated guided vehicle, M.S. Thesis, KTH Industrial Engineering and Management Machine Design, 10-10- 2016.
[7] P. L.Sarode, Design and fabrication of forklift with multi-directional wheel, International Journal of Innovative Research in Science, Engineering and Technology, Vol. 8, Issue 4, 2019, https://doi.org/10.15680/IJIRSET.2019.0804091
[8] Sonawane, Nishant, An experimental method to calculate coefficient of friction in mecanum wheel rollers and cost Analysis Using DFMA Techniques, Dissertations and Theses, Embry-Riddle Aeronautical University, 2015.
[9] Zeidis, Igor Zimmermann, Klaus, Dynamics of a fourwheeled mobile robot with Mecanum wheels, Journal of Applied Mathematics and Mechanics, ISSN 1521- 4001, 2019, https://doi.org/10.1002/zamm.201900173.