Add to ORKGCell-like P systems with symport/antiport rules are computing models inspired by theconservation law, in the sense that they compute by changing the places of objectswith respect to the membranes, and not by changing the objects themselves. In thiswork, a variant of these kinds of membrane systems, called cell-like P systems withevolutionalsymport/antiport rules, where objects can evolve in the execution of suchrules, is introduced. Besides, inspired by the autopoiesis process (ability of a system tomaintain itself), membrane creation rules are considered as an efficient mechanism toprovide an exponential workspace in terms of membranes. The presumed efficiency ofthese computing models (ability to solve computationally hard problems in poly...
We give an informal presentation of the basic ideas, results, and applications of membrane computing...
P Systems are computing devices inspired by the structure and the func- tioning of a living cell. A ...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
Cell-like P systems with symport/antiport rules are inspired by the structure of a cell and the way...
Cell-like P systems where communication between the regions are carried out by rules of type symport...
P systems are computing models inspired by some basic features of biological membranes. In this work...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
A widely studied field in the framework of membrane computing is computational complexity theory. Wh...
Moving "instructions" instead of "data" using transport mechanisms inspired by biology is the basic ...
Membrane systems with symport/antiport rules compute by just moving objects among membranes, and no...
The search for new mechanisms and tools allowing us to tackle the famousPversusNPproblem from new pe...
P systems with active membranes is a widely studied framework within the field of Membrane Computin...
Tissue P systems with evolutional communication (symport/antiport) rules are computational models in...
Moving \instructions" instead of \data", using transport mecha- nisms inspired by biology { this co...
Inspired by mitosis process and membrane fission processes, cell-like P systems with symport/antipo...
We give an informal presentation of the basic ideas, results, and applications of membrane computing...
P Systems are computing devices inspired by the structure and the func- tioning of a living cell. A ...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
Cell-like P systems with symport/antiport rules are inspired by the structure of a cell and the way...
Cell-like P systems where communication between the regions are carried out by rules of type symport...
P systems are computing models inspired by some basic features of biological membranes. In this work...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
A widely studied field in the framework of membrane computing is computational complexity theory. Wh...
Moving "instructions" instead of "data" using transport mechanisms inspired by biology is the basic ...
Membrane systems with symport/antiport rules compute by just moving objects among membranes, and no...
The search for new mechanisms and tools allowing us to tackle the famousPversusNPproblem from new pe...
P systems with active membranes is a widely studied framework within the field of Membrane Computin...
Tissue P systems with evolutional communication (symport/antiport) rules are computational models in...
Moving \instructions" instead of \data", using transport mecha- nisms inspired by biology { this co...
Inspired by mitosis process and membrane fission processes, cell-like P systems with symport/antipo...
We give an informal presentation of the basic ideas, results, and applications of membrane computing...
P Systems are computing devices inspired by the structure and the func- tioning of a living cell. A ...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...