Abstract
The way computer systems are built dramatically changed over time. Starting from huge monolithic systems for many users up to ubiquitous computer environments with a lot of distributed and embedded computing power. Also the way these systems are configured has changed. The Autonomic and Organic Computing initiatives try to solve the upcoming management of complexity problems by utilizing biologically or sociologically inspired methods. One of the demands to the systems is self-configuration.
This paper proposes a self-configuration process for the networked nodes of the AMUN middleware based on a social behavior. Aim of the self-configuration is to find a good distribution of services by calculating a quality of service based on the given resources and the required resources of the services. A configuration specification is provided and flooded into the network to start the cooperative job assignment algorithm. A terminal verification step guarantees the correctness of the found configuration. Evaluations of the completely distributed self-configuration process are provided.
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References
Weiser, M.: The computer for the twenty-first century. Scientific American, 94–110 (1991)
Horn, P.: Autonomic Computing: IBM’s Perspective on the State of Information Technology (2001), http://www.research.ibm.com/autonomic/
VDE/ITG/GI: Organic Computing: Computer- und Systemarchitektur im Jahr 2010 (2003), http://www.gi-ev.de/download/VDE-ITG-GI-PositionspapierOrganicComputing.pdf
Trumler, W., Bagci, F., Petzold, J., Ungerer, T.: AMUN - autonomic middleware for ubiquitous environments applied to the smart doorplate. ELSEVIER Advanced Engineering Informatics 19, 243–252 (2005)
OMG: Object Constraint Language (2003), www.omg.org/docs/ptc/03-10-14.pdf
Wooldridge, M.: An Introduction to Multiagent Systems. John Wiley & Sons, Chichester (2002)
IEEE Foundation for Intelligent Physical Agents: Standard FIPA specifications (2006), available online: http://www.fipa.org/repository/standardspecs.html
Luck, M., McBurney, P., Shehory, O., Willmott, S.: Agent Technology Roadmap (2006), available online: http://www.agentlink.org/roadmap/al3rm.pdf
Smith, R.G.: The contract net protocol: High-level communication and control in a distributed problem solver. IEEE Transaction on Computers 29, 1104–1113 (1980)
Boutaba, R., Omari, S., Singh, A.: Selfcon: An architecture for self-configuration of networks. International Journal of Communications and Networks (special issue on Management of New Networking Infrastructure and Services) 3, 317–323 (2001)
Dutta, P.S., Jennings, N.R., Moreau, L.: Adaptive distributed resource allocation and diagnostics using cooperative information sharing strategies. In: Proc. 5th Int. Conf. on Autonomous Agents and Multi-Agent Systems, Hakodate, Japan (2006)
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© 2006 Springer-Verlag Berlin Heidelberg
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Trumler, W., Klaus, R., Ungerer, T. (2006). Self-configuration Via Cooperative Social Behavior. In: Yang, L.T., Jin, H., Ma, J., Ungerer, T. (eds) Autonomic and Trusted Computing. ATC 2006. Lecture Notes in Computer Science, vol 4158. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11839569_9
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DOI: https://doi.org/10.1007/11839569_9
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-38619-3
Online ISBN: 978-3-540-38622-3
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