Design and Development a Scara Robot for Classify Products Using Image Processing
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In this paper, a SCARA robot arm is designed and developed using stepper motor to classify objects according to their color. Four stepper motors are mounted at each joint of the robot to provide precise movement. The Arduino Mega board is used to create signal for stepper motor driver. The mechanical model of the robot is designed on the Autodesk Inventor software. All links of robot is fabrication by laser cutting method. The assembly of the parts of the robot and the motor’s mechanical shapes produce the final prototype of the arm. The Arduino has been programmed to provide rotation to each corresponding servo motor to the sliders in the designed mobile application for usage from distance. Product classification algorithm will be developed to detect objects based on color. The robot will pick up the products to different positions according to the detected color.
Rahman, M.Z.U, Usman, M., Farea, A., Ahmad, N., Mahmood, L. and Imran, M. Vision-Based Mobile Manipulator for Handling andTransportation of Supermarket Products, Mathematical Problems in Engineering, vol. 7, 2022.
Ali, H.M., Hashim, Y. and Al-Sakkal, G.A. Design and implementation of Arduino based robotic arm, International Journal of Electrical and Computer Engineering (IJECE), vol. 12, no. 2, pp. 1411-1418, 2021.
Chen, C.S., Chen, S.K., Lai, C.C and Lin, C.T. Sequential motion primitives recognition of robotic arm task via human demonstration using hierarchical BiLSTM classifier, IEEE Robotics and Automation Letters, vol. 6, no. 2, pp. 502–509, Apr. 2021.
Sutyasadi, P. and Wicaksono, M.B. Joint control of a robotic arm using particle swarm optimization based H2/H∞ robust control on arduino, TELKOMNIKA (Telecommunication Computing Electronics and Control), vol. 18, no. 2, Apr. 2020, Art. no. 1021.
Basori, A.H. End-effector wheeled robotic arm gaming prototype for upper limb coordination control in home-based therapy, TELKOMNIKA (Telecommunication Computing Electronics and Control), vol. 18, no. 4, Aug. 2020, Art. no. 2080.
Chang, W.C., Cheng, M.Y. and Tsai, H.J. Image feature command generation of contour following tasks for SCARA robots employing image-based visual servoing a PH-spline approach," Robotics and Computer-Integrated Manufacturing, vol. 44, no. C, pp.57–66, 2017.
Urrea, C., Cortés, J., & Pascal, J. Design, construction and control of a SCARA manipulator with 6 degrees of freedom. Journal of Applied Research and Technology, Vol. 14, No. 6, 2016.
Chen G., Yang Y., Zhai L., Zou K., Yang Y. SCARA Robot Control System Design and Trajectory Planning: A Case Study. In: Xie A., Huang X. (eds) Advances in Electrical Engineering and Automation. Advances in Intelligent and Soft Computing, vol 139. Springer, Berlin, Heidelberg, 2012.
Staicu, Stefan. Inverse dynamics of the 3-PRR planar parallel robot. Robotics and Autonomous Systems. Vol. 57, pp. 556-563, 2009.
