Matrix representation of Spiking Neural P Systems

Fri, 10/29/2010 - 15:21 — manu

Title	Matrix representation of Spiking Neural P Systems
Publication Type	Conference Contributions
Year of Publication	2010
Authors	Zeng, X. X., Adorna H., Martínez-del-Amor M. A., Pan L., & Pérez-Jiménez M. J.
Editors	Gheorghe, M., Hinze T., & Paun G.
Conference Name	Eleventh International Conference on Membrane Computing (CMC11)
Volume Title	Proceedings of the Eleventh International Conference on Membrane Computing
ISBN Number	978-3-86805-721-8
Publisher	Verlag ProBusiness Berlin
Place Published	Jena, Germany
Pages	425-439
Date Published	08/2010
Abstract	Spiking neural P systems (SN P systems, for short) are a class of distributed parallel computing devices inspired from the way neurons communicate by means of spikes. In this work, a discrete structure representation of SN P systems with extended rules and without delay is proposed. Specifically, matrices are used to represent SN P systems. In order to represent the computations of SN P systems by matrices, configuration vectors are defined to monitor the number of spikes in each neuron at any given configuration; transition net gain vectors are also introduced to quantify the total amount of spikes consumed and produced after the chosen rules are applied. Nondeterminism of the systems is assured by a set of spiking transition vectors that could be used at any given time during the computation. With such matrix representation, it is quite convenient to determine the next configuration from a given configuration, since it involves only multiplication and addition of matrices after deciding the spiking transition vector.
URL	http://cmc11.uni-jena.de/proceedings.html