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Mostrando ítems 11-17 de 17
Ponencia
Towards Bridging Two Cell-Inspired Models: P Systems and R Systems
(Fénix Editora, 2011)
We examine, from the point of view of membrane computing, the two basic assumptions of reaction systems, the "threshold" and "no permanence" ones. In certain circumstances (e.g., defining the successful computations by ...
Ponencia
Editing Configurations of P Systems
(Fénix Editora, 2005)
This paper proposes and preliminarily investigates the possibility of transforming a configuration (membrane structure and multisets of symbol-objects present in the compartments of this membrane structure) of a P system ...
Ponencia
dP Automata versus Right-Linear Simple Matrix Grammars
(Fénix Editora, 2011)
We consider dP automata with the input string distributed in an arbitrary (hence not necessary balanced) way, and we investigate their language accepting power, both in the case when a bound there is on the number of ...
Ponencia
Spiking Neural dP Systems
(Fénix Editora, 2011)
We bring together two topics recently introduced in membrane computing, the much investigated spiking neural P systems (in short, SN P systems), inspired from the way the neurons communicate through spikes, and the dP ...
Ponencia
Spiking Neural P Systems with Neuron Division and Budding
(Fénix Editora, 2009)
In order to enhance the e±ciency of spiking neural P systems, we introduce the features of neuron division and neuron budding, which are processes inspired by neural stem cell division. As expected (as it is the case for ...
Ponencia
Languages and P Systems: Recent Developments
(Fénix Editora, 2012)
Languages appeared from the very beginning in membrane computing, by their length sets or directly as sets of strings. We briefly recall here this relationship, with some details about certain recent developments. In ...
Ponencia
Bridging Membrane and Reaction Systems - Further Results and Research Topics
(Fénix Editora, 2013)
This paper continues an investigation into bridging two research areas con- cerned with natural computing: membrane computing and reaction systems. More specif- ically, the paper considers a transfer of two assumptions/axioms ...