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Evolving Random Topologies of Spiking Neural Networks for Pattern Recognition

Authors

Gustavo López-Vázquez1, Manuel Ornelas-Rodríguez1, Andrés Espinal2, Jorge A. Soria-Alcaraz2, Alfonso Rojas-Domínguez1, Héctor J. PugaSoberanes1, J. Martín Carpio1 and Horacio Rostro-González3, 1National Technology of México / León Institute of Technology. León, México, 2University of Guanajuato.Guanajuato, México and 3University of Guanajuato.Salamanca, México

Abstract

Artificial Neural Networks (ANNs) have been successfully used in Pattern Recognition tasks. Evolutionary Spiking Neural Networks (ESNNs) constitute an approach to design thirdgeneration ANNs (also known as Spiking Neural Networks, SNNs) involving Evolutionary Algorithms (EAs) to govern some intrinsic aspects of the networks, such as topology, connections and/or parameters. Concerning the practicality of the networks, a rather simple standard is commonly used; restricted feed-forward fully-connected network topologies deprived from more complex connections are usually considered. Notwithstanding, a wider prospect of configurations in contrast to standard network topologies is available for research. In this paper, ESNNs are evolved to solve pattern classification tasks, using an EA-based algorithm known as Grammatical Evolution (GE). Experiments demonstrate competitive results and a distinctive variety of network designs when compared to a more traditional approach to design ESNNs.

Keywords

Artificial Neural Networks, Spiking Neural Networks, Evolutionary Spiking Neural Networks, Evolutionary Algorithms, Grammatical Evolution

Full Text  Volume 9, Number 7