Abstract
There are many researchers and engineers who aim to design such robots that can outplay the human players in the field of sports. A design of badminton playing robot is presented by this paper which can be controlled by the PS-2 (play station) controller, and it can also serve shuttlecock in the badminton court similar to a human player. It is done so as to incorporate advancement in the field of sports. It aims at designing a configuration which can assist the players in practicing badminton. A shuttlecock holding system is designed using pneumatics which can be preloaded with three shuttlecocks and can further be increased according to the convenience. A hitting mechanism was designed so that a standard badminton racket can be swung and can be used to hit the shuttlecocks. The problems and all the related solutions that were involved in the designing of this robot are discussed. The practical application of the design indicates that this robot is able to hold three shuttlecocks and can serve with high accuracy and is efficient enough to hit the returning shuttlecocks with high accuracy. This means that a robust robot is designed which can be controlled by any human being.
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References
Arenas, M., Ruiz-del-Solar, J., Norambuena, S., Cubillos, S.: A robot referee for robot soccer. In: Iocchi, L., Matsubara, H., Weitzenfeld, A., Zhou, C. (eds.) RoboCup 2008: Robot Soccer World Cup XII, vol. 5399, pp. 426–438. Springer, Berlin (2009)
Chen, X., Tian, Y., Huang, Q., Zhang, W., Yu, Z.: Dynamic model based ball trajectory prediction for a robot ping-pong player. In: IEEE International Conference on Paper presented at the Robotics and Biomimetics (ROBIO), 2010
Yang, H.: Robot football goalkeeper speed control research based on BP neural network algorithm. J. Chem. Pharm. Res. 5(12) (2013)
Zitzewitz, J.V., Rauter, G., Steiner, R., Brunschweiler, A., Riener, R.: A versatile wire robot concept as a haptic interface for sport simulation. In: IEEE International Conference Paper presented at the Robotics and Automation ICRA ‘09, 2009
Zhang, J.: Autonomous mobile robot relay race competition. Adv. Sport Sci. Comput. Sci. 57, 41 (2014)
Laue, T., Birbach, O., Hammer, T., Frese, U.: An entertainment robot for playing interactive ball games. In: Behnke, S., Veloso, M., Visser, A., Xiong, R. (eds.) RoboCup 2013: Robot World Cup XVII, vol. 8371, pp. 171–182. Springer, Berlin (2014)
Stoev, J., Bartic, A., Gillijns, S., Symens, W.: Badminton playing robot-a multidisciplinary test case in mechatronics. Paper presented at the Mechatronic Systems (2010)
Chia, K.S., Yap, X.Y., Low, E.S.: A badminton robot-serving operation design. ARPN J. Eng. Appl. Sci. 11(6), 3968–3974 (2016)
Bill Porter: http://www.billporter.info/2010/06/05/playstation-2-controller-arduino-library-v1-0/ (2010)
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Mishra, S., Sachan, V.K. (2019). PS-2 Controlled Four Wheel Base Drive Badminton Playing Robot. In: Jain, L., E. Balas, V., Johri, P. (eds) Data and Communication Networks. Advances in Intelligent Systems and Computing, vol 847. Springer, Singapore. https://doi.org/10.1007/978-981-13-2254-9_9
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DOI: https://doi.org/10.1007/978-981-13-2254-9_9
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