Journal of Computer and System Sciences
Membrane Computing: An Introduction
Membrane Computing: An Introduction
Theoretical Computer Science - Natural computing
Lectures on Petri Nets I: Basic Models, Advances in Petri Nets, the volumes are based on the Advanced Course on Petri Nets
Catalytic P systems, semilinear sets, and vector addition systems
Theoretical Computer Science
Process semantics of general inhibitor nets
Information and Computation
P systems without multiplicities of symbol-objects
Information Processing Letters
Events and modules in reaction systems
Theoretical Computer Science
Processes of membrane systems with promoters and inhibitors
Theoretical Computer Science
The Oxford Handbook of Membrane Computing
The Oxford Handbook of Membrane Computing
Towards a petri net semantics for membrane systems
WMC'05 Proceedings of the 6th international conference on Membrane Computing
The power of maximal parallelism in p systems
DLT'04 Proceedings of the 8th international conference on Developments in Language Theory
Towards bridging two cell-inspired models: P systems and R systems
Theoretical Computer Science
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In membrane systems, biochemical reactions taking place in the compartments of a cell are abstracted to evolution rules that specify which and how many objects are consumed and produced. The recently proposed reaction systems also investigate processes carried by biochemical reactions, but the resulting computational model is remarkably different. A key difference is that in reaction systems, biochemical reactions are modeled using a qualitative rather than a quantitative approach. In this paper, we introduce so-called set membrane systems, a variant of membrane systems with qualitative evolution rules inspired by reaction systems. We then relate set membrane systems to Petri nets which leads to a new class of Petri nets: set-nets with localities. This Petri net model provides a faithful match with the operational semantics of set membrane systems.