Research Article
A Formal Approach for a Self Organizing Protocol Inspired by Bacteria Colonies: Production System Application
522 downloads
@INPROCEEDINGS{10.1007/978-3-642-12808-0_18, author={Hakima Mellah and Salima Hassas and Habiba Drias and A. Raiah and A. Tiguemoumine}, title={A Formal Approach for a Self Organizing Protocol Inspired by Bacteria Colonies: Production System Application}, proceedings={Bioinspired Models of Network, Information, and Computing Systems. 4th International Conference, BIONETICS 2009, Avignon, France, December 9-11, 2009, Revised Selected Papers}, proceedings_a={BIONETICS}, year={2012}, month={5}, keywords={Production system self organization MAS protocol failure detection}, doi={10.1007/978-3-642-12808-0_18} }
- Hakima Mellah
Salima Hassas
Habiba Drias
A. Raiah
A. Tiguemoumine
Year: 2012
A Formal Approach for a Self Organizing Protocol Inspired by Bacteria Colonies: Production System Application
BIONETICS
Springer
DOI: 10.1007/978-3-642-12808-0_18
Abstract
Any dysfunction in production system (PS) is likely to be very expensive; so modelling by Multi Agent Systems (MAS) makes the production system (PS) possible to have aspects of robustness, reactivity and flexibility, which allow the PS control to be powerful and to react to all the risks being able to occur. In order to have a fault-tolerant PS, we propose when and how to recourse to a self organizing protocol making the MAS capable of changing its communication structure or organization, and thus reorganizing itself without any external intervention.
Copyright © 2009–2024 ICST