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Artículo
Cell-Like P Systems With Channel States and Symport/Antiport Rules
(IEEE Computer Society, 2016)
Cell-like P systems with symport/antiport rules are inspired by the structure of a cell and the way of communicating substances through membrane channels between neighboring regions. In this work, channel states are ...
Artículo
P systems with symport/antiport rules: When do the surroundings matter?
(Elsevier, 2018-05-01)
Cell-like P systems where communication between the regions are carried out by rules of type symport/antiport are considered. These systems compute by changing the places of objects with respect to the membranes, and not ...
Artículo
A P–Lingua Based Simulator for P Systems with Symport/Antiport Rules
(IOS Press, 2015)
Inspired by mitosis process and membrane fission processes, cell-like P systems with symport/antiport rules and membrane division rules or membrane separation rules have been introduced, respectively. These computation ...
Artículo
Tissue P Systems with Protein on Cells
(IOS Press, 2016)
Tissue P systems are a class of distributed parallel computing devices inspired by biochemical interactions between cells in a tissue-like arrangement, where objects can be exchanged by means of communication channels. ...
Artículo
Membrane Fission: A Computational Complexity Perspective
(Wiley, 2016)
Membrane fission is a process by which a biological membrane is split into two new ones in the manner that the content of the initial membrane is separated and distributed between the new membranes. Inspired by this biological ...
Artículo
Tissue P Systems With Channel States Working in the Flat Maximally Parallel Way
(IEEE Computer Society, 2016)
issue P systems with channel states are a class of bio-inspired parallel computational models, where rules are used in a sequential manner (on each channel, at most one rule can be used at each step). In this work, tissue ...
Artículo
An efficient time-free solution to QSAT problem using P systems with proteins on membranes
(Elsevier, 2017)
P systems are a class of distributed parallel computing devices inspired by some basicbehaviors of biological membranes, which have the restriction that each rule is executedin exactly one time unit. However, it is natural ...