We consider spiking neural P systems with spiking rules allowed to introduce zero, one, or more spikes at the same time. The computing power of the obtained systems is investigated, when considering them as number generating and as language generating devices. In the first case, a simpler proof of universality is obtained (universality is already known for the restricted rules), while in the latter case we find characterizations of finite and recursively enumerable languages (without using any squeezing mechanism, as it was necessary in the case of restricted rules). The relationships with regular languages are also investigated. In the end of the paper, a tool-kit for computing (some) operations with languages is provided.Ministeri...
We consider here spiking neural P systems with a non-synchronized (i.e., asynchronous) use of rules:...
We consider extended spiking neural P systems with the additional possibility of so-called \white h...
AbstractWe consider here spiking neural P systems with a non-synchronized (i.e., asynchronous) use o...
We consider spiking neural P systems with spiking rules allowed to introduce zero, one, or more spi...
We consider spiking neural P systems with rules allowed to introduce zero, one, or more spikes at t...
We continue the study of spiking neural P systems by considering these computing devices as binary ...
AbstractIn this paper, we investigate the languages generated by asynchronous spiking neural P syste...
AbstractSpiking neural P systems (in short, SN P systems) are computing devices based on the way the...
Spiking neural P systems are a class of P systems inspired from the way the neurons communicate wit...
Abstract. We consider extended variants of spiking neural P systems and show how these extensions of...
Besides usual spikes employed in spiking neural P systems, we consider “anti-spikes", which particip...
In search for small universal computing devices of various types, we consider here the case of spik...
This work deals with several aspects concerning the formal verification of SN P systems and the com...
A variant of spiking neural P systems with positive or negative weights on synapses is introduced, w...
We extend to spiking neural P systems a notion investigated in the “stan- dard” membrane systems: t...
We consider here spiking neural P systems with a non-synchronized (i.e., asynchronous) use of rules:...
We consider extended spiking neural P systems with the additional possibility of so-called \white h...
AbstractWe consider here spiking neural P systems with a non-synchronized (i.e., asynchronous) use o...
We consider spiking neural P systems with spiking rules allowed to introduce zero, one, or more spi...
We consider spiking neural P systems with rules allowed to introduce zero, one, or more spikes at t...
We continue the study of spiking neural P systems by considering these computing devices as binary ...
AbstractIn this paper, we investigate the languages generated by asynchronous spiking neural P syste...
AbstractSpiking neural P systems (in short, SN P systems) are computing devices based on the way the...
Spiking neural P systems are a class of P systems inspired from the way the neurons communicate wit...
Abstract. We consider extended variants of spiking neural P systems and show how these extensions of...
Besides usual spikes employed in spiking neural P systems, we consider “anti-spikes", which particip...
In search for small universal computing devices of various types, we consider here the case of spik...
This work deals with several aspects concerning the formal verification of SN P systems and the com...
A variant of spiking neural P systems with positive or negative weights on synapses is introduced, w...
We extend to spiking neural P systems a notion investigated in the “stan- dard” membrane systems: t...
We consider here spiking neural P systems with a non-synchronized (i.e., asynchronous) use of rules:...
We consider extended spiking neural P systems with the additional possibility of so-called \white h...
AbstractWe consider here spiking neural P systems with a non-synchronized (i.e., asynchronous) use o...