Applicability of Emergence Engineering to Distributed Systems Scenarios

Created by W.Langdon from gp-bibliography.bib Revision:1.8051

@TechReport{Zapf:2008:KIS5,

• author = "Michael Zapf and Thomas Weise",
• title = "Applicability of Emergence Engineering to Distributed Systems Scenarios",
• institution = "Universitat Kassel, Fachbereich 16: Elektrotechnik/Informatik",
• year = "2009",
• type = "Kasseler Informatikschriften (KIS)",
• number = "2008, 5",
• address = "Universitat Kassel, Fachbereich 16: Elektrotechnik/Informatik, Wilhelmshoher Allee 73, 34121 Kassel",
• month = jan,
• keywords = "genetic algorithms, genetic programming, Agents, Multi-Agent Systems, AMAS, Emergence, Emergence Engineering, OEE, Robust, Self-Organization, Rule-based Genetic Programming, RBGP, Election, Critical Section",
• URL = "http://www.it-weise.de/documents/files/ZW2008AOEETDSS.pdf",
• abstract = "Genetic Programming can be effectively used to create emergent behavior for a group of autonomous agents. In the process we call Offline Emergence Engineering, the behavior is at first bred in a Genetic Programming environment and then deployed to the agents in the real environment. In this article we shortly describe our approach, introduce an extended behavioral rule syntax, and discuss the impact of the expressiveness of the behavioral description to the generation success, using two scenarios in comparison: the election problem and the distributed critical section problem. We evaluate the results, formulating criteria for the applicability of our approach.",
• notes = "Presented as \cite{Zapf:2008:eumas}?",

}

Genetic Programming entries for Michael Zapf Thomas Weise

Citations