Journal of the Korean Society of Manufacturing Technology Engineers (한국생산제조학회지)

The Korean Society of Manufacturing Technology Engineers (한국생산제조학회)
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Position Control Algorithm and Experimental Evaluation of an Omni-directional Mobile Robot

전방향 이동로봇 위치제어 알고리즘과 실험적 검증

  • Chu, Baeksuk (Department of Intelligent Mechanical Engineering, Kumoh National Institute of Technology) ;
  • Cho, Gangik (Department of Intelligent Mechanical Engineering, Kumoh National Institute of Technology) ;
  • Sung, Young Whee (School of Electronic Engineering, Kumoh National Institute of Technology)
  • Received : 2015.02.04
  • Accepted : 2015.04.07
  • Published : 2015.04.15
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Abstract

In this study, a position control algorithm for an omni-directional mobile robot based on Mecanum wheels was introduced and experimentally evaluated. Multiple ultrasonic sensors were installed around the mobile robot to obtain position feedback. Using the distance of the robot from the wall, the position and orientation of the mobile robot were calculated. In accordance with the omni-directional velocity generation mechanism, the velocity kinematics between the Mecanum wheel and the mobile platform were determined. Based on this formulation, a simple and intuitive position control algorithm was suggested. To evaluate the control algorithm, a test bed composed of artificial walls was designed and implemented. While conventional control algorithms based on normal wheels require additional path planning for two-dimensional planar motion, the omni-directional mobile robot using distance sensors was able to directly follow target positions with the simple proposed position feedback algorithm.

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References

  1. Clark, S., Durrant-Whyte, H., 1998, Autonomous Land Vehicle Navigation Using Millimeter Wave Radar, Proceedings - IEEE International Conference on Robotics and Automation, 4 3697-3702.
  2. Wang, L., Shu, J., Emura, T., Kumagai, M., 2000, A 3D Scanning Laser Rangefinder and its Application to an Autonomous Guided Vehicle, Vehicular Technology Conference Proceedings, 1 331-1178.
  3. Muir, P. F., Neuman, C. P., 1987, Kinematic Modeling for Feedback Control of an Omnidirectional Wheeled Mobile Robot, Proceedings - IEEE International Conference on Robotics and Automation, 4 1172-1178.
  4. Doroftei, I., Grosu, V., Spinu, V., 2007, Omnidirectional Mobile Robot - Design and Implementation, Bioinspiration and Robotics: Walking and Climbing Robots, I-Tech Education and Publishing, Vienna, 511-528.
  5. Chu, B., Sung, Y. W., 2013, Mobile Performance Evaluation of a Mecanum Wheeled Omni-directional Mobile Robot, Journal of the Korean Society of Manufacturing Technology Engineers, 23:4 374-379. https://doi.org/10.7735/ksmte.2014.23.4.374
  6. Jeong, J., Kwon, S. -J., Chu, B., Park, J., 2014, Unified-type Design and Structural Analysis for Mecanum Wheel Performance Improvement, Journal of the Korean Society of Manufacturing Process Engineers, 13:2 117-123. https://doi.org/10.14775/ksmpe.2014.13.2.117

Cited by

  1. Performance Evaluation of Concrete Polishing Robot with Omnidirectional Mobile Mechanism vol.25, pp.2, 2016, https://doi.org/10.7735/ksmte.2016.25.2.112
  2. Slip Analysis and Experimental Verification for an Omni-Directional Mobile Robot based on Mecanum Wheels vol.37, pp.1, 2015, https://doi.org/10.7736/jkspe.019.082