Different Genetic Algorithms and the Evolution of Specialization: A Study with Groups of Simulated Neural Robots

Organisms that live in groups, from microbial symbionts to social insects and schooling fish, exhibit a number of highly efficient cooperative behaviors, often based on role taking and specialization. These behaviors are relevant not only for the biologist but also for the engineer interested in decentralized collective robotics. We address these phenomena by carrying out experiments with groups of two simulated robots controlled by neural networks whose connection weights are evolved by using genetic algorithms. These algorithms and controllers are well suited to autonomously find solutions for decentralized collective robotic tasks based on principles of self-organization. The article first presents a taxonomy of role-taking and specialization mechanisms related to evolved neural network controllers. Then it introduces two cooperation tasks, which can be accomplished by either role taking or specialization, and uses these tasks to compare four different genetic algorithms to evaluate their capacity to evolve a suitable behavioral strategy, which depends on the task demands. Interestingly, only one of the four algorithms, which appears to have more biological plausibility, is capable of evolving role taking or specialization when they are needed. The results are relevant for both collective robotics and biology, as they can provide useful hints on the different processes that can lead to the emergence of specialization in robots and organisms.

Tipo Pubblicazione: 
Articolo
Author or Creator: 
Ferrauto, Tomassino
Parisi, Domenico
Di Stefano, Gabriele
Baldassarre, Gianluca
Publisher: 
MIT Press,, Cambridge, MA , Stati Uniti d'America
Source: 
Artificial life 19 (2013): 221–253. doi:10.1162/ARTL_a_00106
info:cnr-pdr/source/autori:Ferrauto, Tomassino; Parisi, Domenico; Di Stefano, Gabriele; Baldassarre, Gianluca/titolo:Different Genetic Algorithms and the Evolution of Specialization: A Study with Groups of Simulated Neural Robots/doi:10.1162/ARTL_a_00106/
Date: 
2013
Resource Identifier: 
http://www.cnr.it/prodotto/i/312144
https://dx.doi.org/10.1162/ARTL_a_00106
info:doi:10.1162/ARTL_a_00106
Language: 
Eng
ISTC Author: