International Journal of Embedded Systems and Emerging Technologies

One of the technologies utilised utilized in manufacturing or any other sector to carry out pick and place activities in compliance with requirements is the robotic arm. The main objective of our project is to build a robotic arm whose primary function is pick-and-place tasks. We have created a system that doesn't rely on human interference or error to produce work that is more precise and effective. The project focuses on building a pick-and-place robotic arm using Arduino. We have developed a four-degree-of-freedom robotic arm that may be used in any industry's assembly line or manufacturing line to accurately complete simple light material lifting jobs. The robotic arm uses six servo motors to connect its components and move the arm. It is managed by an Arduino UNO, which receives commands from the Our MIT app, a smartphone app.

Rajashekar K, Reddy H, Ruksar Begum T, Begum S, Fathima SZ, Kauser S. Robotic arm control using Arduino. J Emerg Technol Innov Res. 2020;7, Issue 6:453–5.

Nikesh R, Vange A, Nar V, Dhananjay, Surve B, Anita P et al. Object sorting robotic arm based on color sensing mechanism. Int J Emerg Technol Adv Eng. May 2015;5(5).

Varghese B, Thilagavathi B. Design and wireless control of the anthropomorphic robotic arm. In: Innovations in information, embedded and communication systems (ICIIECS) conference; 2015. p. 1–4. doi: 10.1109/ICIIECS.2015.7192975.

Reddy RK, et al. Robotic arm control using Arduino. J Emerg Technol Innov Res. 2020;7(6):

–5.

Sutisna NA, Farand MQ. Design and prototyping of mini AGV with Arduino microcontroller. Rotasi. 2020;24(2):119–26.

Latifa U, Saputro JS. Perancangan robot arm gripper berbasis Arduino Uno Menggunakan Antarmuka LabVIEW. Barometer. 2018; 3(20): 138–41.

Kannan Megalingam R, Pathmakumar T, Venugopal T, Maruthiyodan G, Philip A. DTMF based robotic arm design and control for robotic coconut tree climber International Conference on Computer, Communication and Control. Vol. IC4; 2015. p. 1–6. doi: 10.1109/IC4.2015.7375539.

Gupta GS, Mukhopadhyay SC. Messom, C.H. and Demidenko, S. Master-slave control of a teleoperated anthropomorphic robotic arm with gripping force sensing. In: Proceedings of the IEEE Instrumentation and measurement technology conference; 2005. p. 2203–8.

Kannan Megalingam R, Pathmakumar T, Venugopal T, Maruthiyodan G, Philip. A International Conference on Computer, Communication and Control. Vol. IC4; 2015. p. 1–6. doi: 10.1109/IC4.2015.7375539.

Kamaril Yusoffa MohdA, Saminb RE. Babul Salam Kader Ibrahimc, wireless mobile robotic arm, international symposium on robotics and intelligent sensors; 2012 (IRIS 2012). p. 1072–8.