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A Genetic Algorithm for Self-Optimization in Safety-Critical Resource-Flow Systems

Florian Siefert, Florian Nafz, Hella Seebach, Wolfgang Reif

Organic Computing tries to tackle the rising complexity of systems by developing mechanisms and techniques that allow a system to self-organize and possess life-like behavior. The introduction of self-x properties also brings uncertainty and makes the systems unpredictable. Therefore, these systems are hardly used in safety-critical domains and their acceptance is low. If those systems should also profit from the benefits of self-x properties, behavioral guarantees must be provided. In this paper, a genetic algorithm for the self-optimization of resource-flow systems is presented. Further its integration into an architecture which allows to provide behavioral guarantees is shown.
published 11.04.2011 IEEE Workshop on Evolving and Adaptive Intelligent Systems (EAIS)

Publisher: IEEE

DOI: http://dx.doi.org/10.1109/EAIS.2011.5945915


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