Abstract
Purchase PDF (1143 K)
E-mail Article
Add to my Quick Links
Cited By in Scopus (14)
Purchase PDF (1654 K)
doi:10.1016/0921-8890(96)81008-6 
Copyright © 1995 Published by Elsevier Science B.V.
Evolution of neural control structures: some experiments on mobile robots
References and further reading may be available for this article. To view references and further reading you must purchase this article.
Francesco Mondada
and Dario Floreano
Available online 22 December 1999.
Abstract
From perception to action and from action to perception, all elements of an autonomous agent are interdependent and need to be strongly coherent. The final behavior of the agent is the result of the global activity of this loop and every weakness or incoherence of a single element has strong consequences on the performances of the agent. We think that, for the purpose of building autonomous robots, all these elements need to be developed together in continuous interaction with the environment. We describe the implementation of a possible solution (artificial neural networks and genetic algorithms) on a real mobile robot through a set of three different experiments. We focus our attention on three different aspects of the control structure: perception, internal representation and action. In all the experiments these aspects are not considered as single processing elements, but as part of an agent. For every experiment, the advantages and disadvantages of this approach are presented and discussed. The results show that the combination of genetic algorithms and neural networks is a very interesting technique for the development of control structures in autonomous agents. The time necessary for evolution, on the other hand, is a very important limitation of the evolutionary approach.
Author Keywords: Genetic algorithms; Neural networks; Autonomous agents; Mobile robots
