Evolutionary computing in multi-agent environments: Partners
(1997)
Presentation / Conference Contribution
Outputs (261)
Evolutionary computing in multi-agent environments: Eusociality (1997)
Presentation / Conference Contribution
Model-based evolutionary computing: A neural network and genetic algorithm architecture (1997)
Presentation / Conference Contribution
On the evolution of multicellularity (1997)
Book Chapter
Evolutionary computing in cooperative multi-agent environments (1996)
Journal Article
Evolutionary computing in multi-agent environments: Speciation and symbiogenesis (1996)
Presentation / Conference Contribution
© 1996, Springer-Verlag. All rights reserved. In this paper we introduce two macro-level operators to enhance the use of population-based evolutionary computing techniques in multiagent environments: speciation and symbiogenesis. We describe their us... Read More about Evolutionary computing in multi-agent environments: Speciation and symbiogenesis.
Optimising individual control rules and multiple communicating rule-based control systems with parallel distributed genetic algorithms (1995)
Journal Article
Genetic algorithms can be used to optimise either individual process-control rules or complete rule-based controllers. The paper describes the optimisation of individual rules to control combustion in multiple burner installations. To solve more comp... Read More about Optimising individual control rules and multiple communicating rule-based control systems with parallel distributed genetic algorithms.
Adaptive gait acquisition using multi-agent learning for wall climbing robots (1995)
Journal Article
Evolving multi-agent systems (1995)
Journal Article
Artificial endosymbiosis (1995)
Presentation / Conference Contribution
© Springer-Verlag Berlin Heidelberg 1995. Symbiosis is the phenomenon in which organisms of different species live together in close association, resulting in a raised level of fitness for one or more of the organisms. Endosymbiosis is the name given... Read More about Artificial endosymbiosis.