Cuprins
Invited Presentations.- P Automata: Concepts, Results, and New Aspects.- Computational Nature of Processes Induced by Biochemical Reactions.- Transition and Halting Modes in (Tissue) P Systems.- Conformon P Systems and Topology of Information Flow.- Formal Verification and Testing Based on P Systems.- A Look Back at Some Early Results in Membrane Computing.- From P to MP Systems.- The Biological Cell in Spectacle.- Energy-Based Models of P Systems.- A Computational Complexity Theory in Membrane Computing.- Regular Presentations.- Evolving by Maximizing the Number of Rules: Complexity Study.- On Reversibility and Determinism in P Systems.- Typed Membrane Systems.- A P System Based Model of an Ecosystem of Some Scavenger Birds.- Metabolic P System Flux Regulation by Artificial Neural Networks.- A Novel Variant of P Systems for the Modelling and Simulation of Biochemical Systems.- Implementing P Systems Parallelism by Means of GPUs.- Regulation and Covering Problems in MP Systems.- (Tissue) P Systems with Hybrid Transition Modes.- An Overview of P-Lingua 2.0.- Characterizing Tractability by Tissue-Like P Systems.- Searching Previous Configurations in Membrane Computing.- Modelling Signalling Networks with Incomplete Information about Protein Activation States: A P System Framework of the Kai ABC Oscillator.- Solving NP-Complete Problems by Spiking Neural P Systems with Budding Rules.- Tuning P Systems for Solving the Broadcasting Problem.- An Improved Membrane Algorithm for Solving Time-Frequency Atom Decomposition.- A Region-Oriented Hardware Implementation for Membrane Computing Applications.- Discovering the Membrane Topology of Hyperdag P Systems.- A Note on Small Universal Spiking Neural P Systems.- On the Power of Computing with Proteins on Membranes.- An Efficient Simulation of Polynomial-Space Turing Machines by P Systems with Active Membranes.- Look-Ahead Evolution for P Systems.