Applying the PROSA Reference Architecture to Enable the Interaction between the Worker and the Industrial Robot - Case Study: One Worker Interaction with a Dual-Arm Industrial Robot
Ahmed R. Sadik, Bodo Urban
2017
Abstract
Involving an industrial robot in a close physical interaction with the worker became quite possible, as a result of the availability of different collaborative industrial robots in the market. The physical cooperation between the industrial robot and the worker usually done under the umbrella of the flexible manufacturing paradigm, where both the industrial robot and the worker need to change their tasks fast and efficiently, to cope with the changes in the manufacturing process. This means that a reliable manufacturing control system must stand behind this physical interaction to achieve the proper communication interaction. A holonic control architecture is an ideal solution for this problem. Therefore, during this research we study the most commonly applied model of the holonic control architecture, then we apply this architecture on our case study, where one worker cooperates with a dual-arm industrial robot to build and produce any new product. Also the research uses the worker’s hand gesture recognition as a method to interact with the industrial robot during the execution of a cooperative production scenario.
References
- Bellifemine, F., Caire, G., Greenwood, D., Developing multi-agent systems with JADE, Vol 7 ed. John Wiley & Sons, 2007.
- Berci, N., Szolgay. P., Vision based human-machine interface via hand gestures, 18th European conference on circuit theory and design (ECCTD 2007), pp 496- 499, 2007.
- Caire, I., JADE Tutorial: JADE Programming for Beginners, TILAB & West Sussex, 2009.
- Elmaraghy, Hoda A., Flexible and reconfigurable manufacturing systems paradigms, International Journal of Flexible Manufacturing Systems, Volume 17, Issue 4, pp 261-276, October 2005.
- FIPA, Fipa.org, 2016. [Online]. Available: http://www.fipa.org/. [Accessed: 06- Oct- 2016].
- Fontana, M., the Body Extender: A Full-Body Exoskeleton for the Transport and Handling of Heavy Loads, IEEE Robotics & Automation Magazine, Vol. 21, pp. 34-44, 2014.
- Giret, A., Botti, V. Holonic Manufacturing Systems, ANEMONA - A Multi-agent Methodology for Holonic Manufacturing Systems, Springer Series in Advanced Manufacturing, pp. 7-20, 2008.
- Goodrich, M.A., Schultz, A.C., Human-robot interaction: a survey, Foundations and Trends in Human-Computer Interaction Vol. 1, pp. 203-275, 2007.
- JADE | Java Agent DEvelopment Framework, Jade.tilab.com. [Online]. Available: http://jade.tilab.com/. [Accessed: 1- Oct- 2016].
- Jennings, N.R., Wooldridge, M.J., Applications of intelligent agents, Agent Technology: Foundations, Applications, and Markets, Springer, pp. 3-28, 1998.
- Koestler, A., The Ghost in the Machine, Hutchinson, 1967.
- Koren, Y., Heisel, U., Jovane, F., Moriwaki, T., Pritschow, G., Ulsoy, G., Brussel H., 1999, Reconfigurable Manufacturing Systems, CIRP Annals, Vol 48, pp. 527- 540.
- Kruger, K., Basson, A., 2015, Implementation of an ErlangBased Resource Holon for a Holonic Manufacturing Cell, Studies in Computational Intelligence, Vol 594, pp. 49-58.
- Lasota, A., Rossano, F., Shah, A., Safe Close-Proximity Human-Robot Interaction with Standard Industrial Robots, IEEE International Conference on Automation Science and Engineering (CASE), 2014.
- Leap Motion, Leapmotion.com, [Online]. Available: https://www.leapmotion.com/. [Accessed: 03- Oct2016].
- Leitao, P., Restivo, F., ADACOR: A holonic architecture for agile and adaptive manufacturing control, Computers in Industry, Vol 57, pp. 121-130 , 2006.
- Leitao, P., Restivo, F., Implementation of a Holonic Control System in a Flexible Manufacturing, IEEE TRANSACTIONS ON SYSTEMS, MAN, AND CYBERNETICS-PART C: APPLICATIONS AND REVIEWS, Vol. 38, pp. 699-709, 2008.
- Lozano, J., Teba, J., Larrañeta, L., Álvarez, P., Dynamic part-routing in a Flexible Manufacturing, Journal of Operations Reaserch, Statistics and Computer Science, Vol. 34, pp. 16-28, 1994.
- Parker, L.E., Draper, J.V, Robotics Applications in Maintenance and Repair, Handbook of Industrial Robotics, 2nd Edition, J. Wiley, 1998.
- Pinker, S., How the Mind Works, Annals of the New York Academy of Sciences, Vol. 882, pp. 119-127, 1999.
- Potter, L., Araullo, J., and Carter, L., "The Leap Motion controller: A view on sign language," in 25th Australian Computer-Human Interaction Conference, 2013.
- Poslad, S., Specifying Protocols for Multi-Agent Systems Interaction, ACM Transactions on Autonomous and Adaptive Systems, Vol 2, 2007.
- Radu, F., Frank, F., Development and applications of holonic manufacturing systems: a survey, Journal of Intelligent Manufacturing, Vol 17, pp. 111-113, 2006.
- Rethink Robotics | Advanced Robotics Technology | Collaborative Robots, Rethink Robotics, [Online]. Available: http://www.rethinkrobotics.com/. [Accessed: 02- Oct- 2016].
- Shen, W., Hao Q., Yoon, H. J., Norrie, D. H., Applications of agent - based systems in intelligent manufacturing: An updated review, Advanced Engineering Informatics, Vol 20, pp. 415-431, 2006.
- Su, J., Component-based intelligent control architecture for reconfigurable manufacturing systems, Ph.D. Thesis, Virginia Polytechnic Institute and State University, 2007.
- Teahan, W., Artificial Intelligence - Agent Behaviour, BookBoon, 2010.
- Van Brussel, H., Wyns, J., Valckenaers, P., Bongaerts, L., Petters, P. Reference Architecture for Holonic Manufacturing Systems: PROSA. Computers in Industry, Vol. 37, pp. 95-108, 2003.
Paper Citation
in Harvard Style
R. Sadik A. and Urban B. (2017). Applying the PROSA Reference Architecture to Enable the Interaction between the Worker and the Industrial Robot - Case Study: One Worker Interaction with a Dual-Arm Industrial Robot . In Proceedings of the 9th International Conference on Agents and Artificial Intelligence - Volume 1: ICAART, ISBN 978-989-758-219-6, pages 190-199. DOI: 10.5220/0006191801900199
in Bibtex Style
@conference{icaart17,
author={Ahmed R. Sadik and Bodo Urban},
title={Applying the PROSA Reference Architecture to Enable the Interaction between the Worker and the Industrial Robot - Case Study: One Worker Interaction with a Dual-Arm Industrial Robot},
booktitle={Proceedings of the 9th International Conference on Agents and Artificial Intelligence - Volume 1: ICAART,},
year={2017},
pages={190-199},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0006191801900199},
isbn={978-989-758-219-6},
}
in EndNote Style
TY - CONF
JO - Proceedings of the 9th International Conference on Agents and Artificial Intelligence - Volume 1: ICAART,
TI - Applying the PROSA Reference Architecture to Enable the Interaction between the Worker and the Industrial Robot - Case Study: One Worker Interaction with a Dual-Arm Industrial Robot
SN - 978-989-758-219-6
AU - R. Sadik A.
AU - Urban B.
PY - 2017
SP - 190
EP - 199
DO - 10.5220/0006191801900199