DEVELOPMENT OF AN AUTONOMOUS TENNIS BALL RETRIEVER ROBOT
Year 2020,
Special Issue 2020, 36 - 44, 20.07.2020
Duru Sarıcalar
,
Kadir Furkan Çaybaşı
,
Bekir Öztürk
,
Volkan Sezer
Abstract
In this paper, design and implementation of an autonomous robot that collects tennis balls autonomously are explained. A small-scale tennis field is modeled as a ball-gathering area. In order to obtain the required image for localization and planning, a camera is placed 2 meters above the ground surface. Vehicle control is achieved after the image processing via Matlab™ software. Tennis balls are mechanically guided to the launch mechanism using guides and are collected in the chamber. Experimental results show that the design successfully fulfills its function.
Thanks
We would like to express our gratitude to the ITU Mechatronics Education and Research Center for supporting this study within the scope of MKM512-Mechatronics System Design course and to Alev Keskin.
References
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Çabuk, V.U., Şavkan, A.K., Kahraman, R., Karaduman, F., Kırıl, O. and Sezer, V. "Design and Control of a Tennis Ball Collector Robot." 2018 6th International Conference on Control Engineering & Information Technology (CEIT). IEEE, 1-6, 2018.
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Chen, H.-K., & Dai, J.-M. “An Intelligent Tennis Ball Collecting Vehicle Using Smart Phone Touch-Based Interface” 2016 International Symposium on Computer, Consumer and Control, 2016, 362-365.
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Am-Eam, N., "The implementation of hydraulics system and solar energy in the Tennis Balls Collecting Machine" ICCAS 2010. IEEE, 2010, 2265-2270.
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https://www.tennibot.com/
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Sezer, V. and Gokasan, M., “A novel obstacle avoidance algorithm:“Follow the Gap Method””. Robotics and Autonomous Systems, 60(9), 1123-1134, 2012.
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Fox, D., Burgard, W. and Thrun, S., “ The dynamic window approach to collision avoidance” IEEE Robotics & Automation Magazine, 4(1),.23-33,1997.
Year 2020,
Special Issue 2020, 36 - 44, 20.07.2020
Duru Sarıcalar
,
Kadir Furkan Çaybaşı
,
Bekir Öztürk
,
Volkan Sezer
References
- Reference1
Shinde, B. S., and Dani, A. R., "The Origins of Digital Image Processing & Application areas in Digital Image Processing Medical Images" IOSR Journal of Engineering 1.1: 066-071 ,2007
- Reference2
Acharya, T. and Ray, A.K., “Image processing: principles and applications”, John Wiley & Sons, 2005.
- Reference3
Chitradevi, B., and P. Srimathi., "An overview on image processing techniques." International Journal of Innovative Research in Computer 2.11, 6466-6472, 2014
- Reference4
Sural, H., "Gezgin Satıcı Problemi" Matematik Dünyası dergisi , 37-40 , 2003
- Reference5
Pulat, M., DEVECİ K., İ. “Gezgin Satıcı Probleminin Genetik Algoritmalar Kullanarak Çözümünde Çaprazlama Operatörlerinin Örnek Olaylar Bazlı İncelenmesi, YöneylemAraştırması” Endüstri Mühendisliği 36. Ulusal Kongresi, BORNOVA, 2016.
- Reference6
Çabuk, V.U., Şavkan, A.K., Kahraman, R., Karaduman, F., Kırıl, O. and Sezer, V. "Design and Control of a Tennis Ball Collector Robot." 2018 6th International Conference on Control Engineering & Information Technology (CEIT). IEEE, 1-6, 2018.
- Reference7
Chen, H.-K., & Dai, J.-M. “An Intelligent Tennis Ball Collecting Vehicle Using Smart Phone Touch-Based Interface” 2016 International Symposium on Computer, Consumer and Control, 2016, 362-365.
- Reference8
Chawla, Neha, et al. "Robotic Tennis Ball Collector" Florida Conference on Recent Advances in Robotics. 2012.
- Reference9
Am-Eam, N., "The implementation of hydraulics system and solar energy in the Tennis Balls Collecting Machine" ICCAS 2010. IEEE, 2010, 2265-2270.
- Reference10
https://www.tennibot.com/
- Reference11
Sezer, V. and Gokasan, M., “A novel obstacle avoidance algorithm:“Follow the Gap Method””. Robotics and Autonomous Systems, 60(9), 1123-1134, 2012.
- Reference12
Fox, D., Burgard, W. and Thrun, S., “ The dynamic window approach to collision avoidance” IEEE Robotics & Automation Magazine, 4(1),.23-33,1997.