Design and implementation of a fuzzy logic-based joint controller on a 6-DOF robot arm with machine vision feedback
College
Gokongwei College of Engineering
Department/Unit
Electronics And Communications Engg
Document Type
Conference Proceeding
Source Title
Proceedings of Computing Conference 2017
Volume
2018-January
First Page
249
Last Page
257
Publication Date
1-8-2018
Abstract
© 2017 IEEE. This study presents the design, simulation and implementation of a fuzzy logic-based joint controller (FLJC) on a six-degrees of freedom (6-DOF) robotic arm with machine vision feedback capable of picking an object and placing it to a predetermined position. A 4-DOF M100RAK robotic arm coupled with 2-DOF gripper is used as a platform in the implementation of the FLJC. The control of robotic arm system is a closed-loop system. The inputs to the FLJC are the joint angles, gripper coordinates and target object coordinates. Input joint angles are measured using MPU6050 Six-Axis (Gyro+Accelerometer) sensor. Machine vision system composed of Kinect camera and an opensource Processing software are used to extract the coordinates of the gripper and the target within the image of the workspace. Computed joint angles from FLJC are transmitted through communication protocol packets to Arduino microcontroller for servo control.
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Digitial Object Identifier (DOI)
10.1109/SAI.2017.8252111
Recommended Citation
Ligutan, D. F., Cruz, L. S., Del Rosario, M. D., Kudhal, J. S., Abad, A. C., & Dadios, E. P. (2018). Design and implementation of a fuzzy logic-based joint controller on a 6-DOF robot arm with machine vision feedback. Proceedings of Computing Conference 2017, 2018-January, 249-257. https://doi.org/10.1109/SAI.2017.8252111
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