Multiagent communication combining genetic programming and pheromone communication
Created by W.Langdon from
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- @Article{mackin:2002:K,
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author = "Kenneth J. Mackin and Eiichiro Tazaki",
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title = "Multiagent communication combining genetic programming
and pheromone communication",
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journal = "Kybernetes",
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year = "2002",
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volume = "31",
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number = "6",
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pages = "827--843",
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keywords = "genetic algorithms, genetic programming, Cybernetics;
Programming, Communications, Electronic Commence",
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DOI = "doi:10.1108/03684920210432808",
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abstract = "Multiagent systems, in which independent software
agents interact with each other to achieve common
goals, complete concurrent distributed tasks under
autonomous control. Agent Communication has been shown
to be an important factor in coordinating efficient
group behavior in agents. Most researches on training
or evolving group behavior in multiagent systems used
predefined agent communication protocols. Designing
agent communication becomes a complex problem in
dynamic and large-scale systems. In order to solve this
problem, in this paper we propose a new application of
existing training methods. By applying Genetic
Programming techniques, namely Automatically Defined
Function Genetic Programming (ADF-GP), in combination
with pheromone communication features, we allowed the
agent system to autonomously learn effective agent
communication messaging for coordinated group behavior.
A software simulation of a multiagent transaction
system aiming at e-commerce usage will be used to
observe the effectiveness of the proposed method in the
targeted environment. Using the proposed method,
automatic training of a compact and efficient agent
communication protocol for the multiagent system was
observed.",
- }
Genetic Programming entries for
Kenneth J Mackin
Eiichiro Tazaki
Citations