Petri net algorithms in the theory of matrix grammars
Acta Informatica
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Membrane Computing with External Output
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Three "quantum" algorithms to solve 3-SAT
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(Tissue) P Systems with Unit Rules and Energy Assigned to Membranes
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Reversible P Systems to Simulate Fredkin Circuits
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WMC'04 Proceedings of the 5th international conference on Membrane Computing
Sequential p systems with unit rules and energy assigned to membranes
MCU'04 Proceedings of the 4th international conference on Machines, Computations, and Universality
Universal families of reversible p systems
MCU'04 Proceedings of the 4th international conference on Machines, Computations, and Universality
Energy-Based models of p systems
WMC'09 Proceedings of the 10th international conference on Membrane Computing
(Tissue) P Systems with Unit Rules and Energy Assigned to Membranes
Fundamenta Informaticae - SPECIAL ISSUE MCU2004
Reversible P Systems to Simulate Fredkin Circuits
Fundamenta Informaticae - SPECIAL ISSUE MCU2004
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As already considered in [13], we investigate P systems where each evolution rule "produces" or "consumes" some quantity of energy, in amounts which are expressed as integer numbers. Yet in contrast to P systems with energy accounting as considered in [13], for energy-controlled P systems we demand that in each evolution step and in each membrane the total energy consumed by the application of a multiset of evolution rules has to be the maximum possible within a specific non-negative range. Only equipped with this control feature, energy-controlled P systems are very powerful. In the case of multisets of symbol objects we find that energy-controlled P systems with even only one membrane and an energy range of {0, 1} for the total energy involved in an evolution step characterize the recursively enumerable sets of vectors of natural numbers (without using catalysts or priorities or membrane dissolving features). In the case of string objects similar results can be obtained. Energy-controlled P systems with even only one membrane and the minimal energy range of {0} for the total energy involved in an evolution step at least generate any set of vectors of natural numbers that can be generated by matrix grammars without appearance checking.