Abstract
The aim of this work is to design and develop efficient and low-cost end effector for holding and handling of fragile objects, which is to be used in the industrial automation and mainly for the purpose of domestic robots. The design consists of three systems: the sensor system, the control module, and the robotic end effector. Different objects have different stress-handling capabilities, when pressure is applied on the object goes beyond the yield point, and then object either deforms or breaks. So, the aim of this work is to utilize that strain being applied to the object for holding the object and handling it carefully. This end effector works with a single degree of freedom. The end effector is designed to have three grasping fingers out of which one is stable with the sensor on it and other two fingers are attached to a single joint with common motion to both fingers.
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References
Sushmit AS, Haque FM, Shahriar Md, Bhuiyan SAM, Sarkar MAR (2017) Design of a gesture-controlled robotic gripper arm using neural networks. In: IEEE international conference on power, control, signals, and instrumentation engineering
Haque FM, Sushmit AS, Sarkar MAR (2017) Design of a voice-controlled robotic gripper arm using neural network. In: International conference on energy, communication, data analytics, and soft computing
Venter D, Dirven S (2017) Self morphing soft-robotic gripper for handling and manipulation of delicate produce in horticultural applications. In: 24th international conference on mechatronics and machine vision in practice (M2VIP)
Lee YC, Lim SJ, Hwang SW, Han CS (2009) Development of the robot gripper for a home service robot. In: ICROS-SICE international joint conference 2009
Choi MS, Lee DH, Park H, Kim YJ, Jang GR, Shin YD, Park JH, Baeg MH, Bae JH (2017) Development of multi-purpose universal gripper. In: Proceedings of the SICE annual conference (2017)
Pai UJ, Sarath NP, Sidharth R, Kumar AP, Pramod S, Udupa G (2016) Design and manufacture of 3D printec myoelectric multi-fingered hand for prosthetic application. In: International conference on robotics and automation for humanitarian applications (RAHA)
Megalingam RK, Vivek GV, Bandyopadhyay S, Rahi MJ (2017) Robotic arm design, development and control for agriculture applications. In: 4th international conference on advanced computing and communication systems (ICACCS)
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Indu, V., Vinay, P., Rohith, N., Puneeth, K., Pramod, S. (2020). Design and Development of End Effector for Domestic Robots. In: Ranganathan, G., Chen, J., Rocha, Á. (eds) Inventive Communication and Computational Technologies. Lecture Notes in Networks and Systems, vol 89. Springer, Singapore. https://doi.org/10.1007/978-981-15-0146-3_33
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DOI: https://doi.org/10.1007/978-981-15-0146-3_33
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