Genetic Representation and Evolvability of Modular Neural Controllers

The manual design of control systems for robotic devices can be challenging. Methods for the automatic synthesis of control systems, such as the evolution of artificial neural networks, are thus widely used in the robotics community. However, in many robotic tasks where multiple interdependent contr...

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Bibliographic Details
Published in:IEEE computational intelligence magazine 2010-08, Vol.5 (3), p.10-19
Main Authors: Durr, Peter, Mattiussi, Claudio, Floreano, Dario
Format: Magazinearticle
Language:English
Subjects:
Algorithms
Artificial neural networks
Automatic control
Control system synthesis
Control systems
Evolutionary computation
Genetics
Interference
Network synthesis
Neural networks
Robot control
Robotics and automation
Studies
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Summary:The manual design of control systems for robotic devices can be challenging. Methods for the automatic synthesis of control systems, such as the evolution of artificial neural networks, are thus widely used in the robotics community. However, in many robotic tasks where multiple interdependent control problems have to be solved simultaneously, the performance of conventional neuroevolution techniques declines. In this paper, we identify interference between the adaptation of different parts of the control system as one of the key challenges in the evolutionary synthesis of artificial neural networks. As modular network architectures have been shown to reduce the effects of such interference, we propose a novel, implicit modular genetic representation that allows the evolutionary algorithm to automatically shape modular network topologies. Our experiments with plastic neural networks in a simple maze learning task indicate that adding a modular genetic representation to a state-of-the-art implicit neuroevolution method leads to better algorithm performance and increases the robustness of evolved solutions against detrimental mutations.
ISSN:1556-603X
1556-6048
1556-6048
1556-603X
DOI:10.1109/MCI.2010.937319