Membrane Computing 15th International Conference, CMC 2014, Prague, Czech Republic, August 20-22, 2014, Revised Selected Papers / [electronic resource] :
edited by Marian Gheorghe, Grzegorz Rozenberg, Arto Salomaa, Petr Sosík, Claudio Zandron.
- Cham : Springer International Publishing, 2014.
- 1 online resource (XIX, 397 p. 72 ill.)
- Lecture Notes in Computer Science, 8961 0302-9743 ; .
From P Colonies to 2D P Colonies and Simulations of Multiagent Systems -- A Bioinspired Computing Approach to Model Complex Systems -- P Systems with Active Membranes Working in Sublinear Space -- Membrane Computing Inspired Approach for Executing Scientific Workflow in the Cloud -- P Systems with Anti-Matter -- Priorities, Promoters and Inhibitors in Deterministic Non-cooperative P Systems -- P Systems with Toxic Objects -- Promoters and Inhibitors in Purely Catalytic P Systems -- Red-Green P Automata -- Extended Simulation and Verification Platform for Kernel P Systems -- The Abilities of P Colony Based Models in Robot Control -- Probabilistic Guarded P Systems, a New Formal Modelling Framework -- Solving the ST-Connectivity Problem with Pure Membrane Computing Techniques -- Simulating Turing Machines with Polarizationless P Systems with Active Membranes -- Categorised Counting Mediated by Blotting Membrane Systems for Particle-Based Data Mining and Numerical Algorithms -- Polymorphic P Systems with Non-cooperative Rules and No Ingredients -- Spiking Neural P Systems with Astrocytes Using the Rules in the Exhaustive Mode -- Simulating Elementary Active Membranes with an Application to the P Conjecture -- Small Universal Spiking Neural P Systems with Cooperating Rules as Function Computing Devices -- Spiking Neural P Systems with Cooperating Rules -- Parallel Thinning with Complex Objects and Actors -- Causal Nets for Geometrical Gandy-Paun-Rozenberg Machines -- P System Computational Model as Framework for Hybrid (Membrane-Quantum) Computations -- Fault Diagnosis Models for Electric Locomotive Systems Based on Fuzzy Reasoning Spiking Neural P Systems.