Journal of Computer and System Sciences
Handbook of Formal Languages
Regulated Rewriting in Formal Language Theory
Regulated Rewriting in Formal Language Theory
Membrane Computing: An Introduction
Membrane Computing: An Introduction
GP Systems with forbidding context
Fundamenta Informaticae - Membrane computing
WMC-CdeA '02 Revised Papers from the International Workshop on Membrane Computing
FCT '99 Proceedings of the 12th International Symposium on Fundamentals of Computation Theory
On the Number of Non-terminal Symbols in Graph-Controlled, Programmed and Matrix Grammars
MCU '01 Proceedings of the Third International Conference on Machines, Computations, and Universality
From regulated rewriting to computing with membranes: collapsing hierarchies
Theoretical Computer Science
Computation: finite and infinite machines
Computation: finite and infinite machines
P systems with conditional communication rules assigned to membranes
Journal of Automata, Languages and Combinatorics
Three "quantum" algorithms to solve 3-SAT
Theoretical Computer Science
(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
How Redundant Is Your Universal Computation Device?
Membrane Computing
(UREM) P systems with a quantum-like behavior: background, definition, and computational power
WMC'07 Proceedings of the 8th international conference on Membrane computing
Computing with energy and chemical reactions
Natural Computing: an international journal
Quantum sequential p systems with unit rules and energy assigned to membranes
WMC'05 Proceedings of the 6th international conference on Membrane Computing
Conservative computations in energy–based p systems
WMC'04 Proceedings of the 5th international conference on Membrane Computing
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
| Hi-index | 0.00 |
We introduce a new variant of membrane systems where the rules are directly assigned to membranes (and not to the regions as this is usually observed in the area of membrane systems) and, moreover, every membrane carries an energy value that can be changed during a computation by objects passing through the membrane. For the application of rules leading from one configuration of the system to the succeeding configuration we consider a sequential derivation mode and do not use the mode of maximal parallelism. The result of a successful computation is considered to be the distribution of energy values carried by the membranes. We show that for such systems using a kind of priority relation on the rules we already obtain universal computational power. When omitting the priority relation, we obtain a characterization of the family of Parikh sets generated by context-free matrix grammars (with λ -rules).