Abstract
Research in the RoboCup domain has grown considerably since the beginning of this initiative more than ten years ago. Much of this growth is due to the existence of different leagues, that allow the focussing of research in specific and heterogeneous issues.
This specialisation of research has, though, proven to have some drawbacks: research subjects become very specific, and one loses the ability of properly generalising, and sharing, the obtained results.
This paper presents an architecture that aims at being open, enabling the development of independent components that can easily be ported between application environments. This architecture, called Common Framework, relies on standardised interfaces, protocols and communication channels between components. Besides allowing the free association of heterogeneous components, like real and simulated back-ends, it also considerably eases the introduction of principles of redundancy and fault tolerance.
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References
FIPA Technical Committee: FIPA ACL message structure specification. Technical report, Foundation for Intelligent Physical Agents (2002)
FIPA Technical Committee: FIPA SL content language specification. Technical report, Foundation for Intelligent Physical Agents (2002)
Genesereth, M.R., Fikes, R.E.: Knowledge interchange format, version 3.0 reference manual. Technical report, Computer Science Department, Stanford University (1992)
Bruyninckx, H.: Open robot control software: the orocos project. In: IEEE International Conference on Robotics and Automation (2001)
Bruyninckx, H., Soetens, P., Koninckx, B.: The real-time motion control core of the orocos project. In: IEEE International Conference on Robotics and Automation (2003)
Enderle, S., Utz, H., Sablatnög, S., Simon, S., Kraetzschmar, G., Palm, G.: Miro: Middleware for autonomous mobile robots. In: IFAC Conference on Telematics Applications in Automation and Robotics (2001)
Utz, H., Sablatnög, S., Enderle, S., Kraetzschmar, G.: Miro—middleware for mobile robot applications. IEEE Transactions on Robotics and Automation 18(4), 493–497 (2002)
Mayer, G., Kaufmann, U., Clauss, M., Hartmann, C., Monsch, M., Ruland, T., Seibold, B., Sitter, C., Wolf, F., Palm, G.: The ulm sparrows 2006 - team description paper. Technical report, University of Ulm (2006)
Ramos, N., Barbosa, M., Lima, P.: Multi-robot systems middleware applied to soccer robots. In: ROBOTICA 2007 - 7th Portuguese Robotics Festival (2007)
Kok, J.R., Vlassis, N., Groen, F.: Uva trilearn 2004 team description. Technical report, University of Amsterdam (2004)
rctools Web Page, http://rctools.sourceforge.jp/akiyama/
Gimenes, R., Mota, L., Reis, L.P., Lau, N., Certo, J.: Simulation meets reality: A cooperative approach to robocup’s physical visualization soccer league. In: Neves, J., Santos, M.F., Machado, J.M. (eds.) EPIA 2007. LNCS (LNAI), vol. 4874. Springer, Heidelberg (2007)
Moreira, A.P., Costa, P., Scolari, A., Sousa, A., Marques, P.: 5dpo-2000 team description for robocup 2006. Technical report, University of Porto (UP) (2006)
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Mota, L., Reis, L.P. (2008). A Common Framework for Co-operative Robotics: An Open, Fault Tolerant Architecture for Multi-league RoboCup Teams. In: Carpin, S., Noda, I., Pagello, E., Reggiani, M., von Stryk, O. (eds) Simulation, Modeling, and Programming for Autonomous Robots. SIMPAR 2008. Lecture Notes in Computer Science(), vol 5325. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-89076-8_19
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DOI: https://doi.org/10.1007/978-3-540-89076-8_19
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