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Soft Computing
Erschienen in: Soft Computing 14/2019

17.09.2018 | Foundations

Cell-like spiking neural P systems with evolution rules

verfasst von: Tong Pan, Jinbang Xu, Suxia Jiang, Fei Xu

Erschienen in: Soft Computing | Ausgabe 14/2019

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Abstract

Cell-like spiking neural P systems (abbreviated as cSN P systems) are a class of distributed and parallel computation devices which combine a hierarchical arrangement of membranes in rewriting P systems and evolution rules in spiking neural P systems. The existing results show that cSN P systems are Turing universal with replication target indication or general spiking rules that produce more spikes than the ones consumed. However, with neither the replication target indication nor general spiking rules, cSN P systems can only compute finite set of numbers. In this work, we introduce evolution rules into cSN P systems to compensate the loss of computation power, the application of which depends on the contents of a region. With an evolution rule, every copy of spike evolves to a designate multiset over one kind of objects. We prove that cSN P systems with evolution rules are computationally universal in the case of using traditional spiking rules while avoiding the replication target indication. We also investigate the influence of the target indications on the computation power of cSN P systems with evolution rules. The results show that removing some target indications has no influence on computation power but a corresponding increase in the number of membranes. Besides, the results give a solution to the open problem that seeks alternative methods for the replication of spikes in a cSN P system.
Vorheriger Artikel On weak implication algebra
Nächster Artikel A formal model of semantic computing

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Metadaten
Titel
Cell-like spiking neural P systems with evolution rules
verfasst von
Tong Pan
Jinbang Xu
Suxia Jiang
Fei Xu
Publikationsdatum
17.09.2018
Verlag
Springer Berlin Heidelberg
Erschienen in
Soft Computing / Ausgabe 14/2019
Print ISSN: 1432-7643
Elektronische ISSN: 1433-7479
DOI
https://doi.org/10.1007/s00500-018-3500-7

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