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ORCIDInt. Conf. on Membrane Computing 2014: Prague, Czech Republic
- Marian Gheorghe, Grzegorz Rozenberg, Arto Salomaa, Petr Sosík
, Claudio Zandron:
Membrane Computing - 15th International Conference, CMC 2014, Prague, Czech Republic, August 20-22, 2014, Revised Selected Papers. Lecture Notes in Computer Science 8961, Springer 2014, ISBN 978-3-319-14369-9
Invited Papers
- Ludek Cienciala, Lucie Ciencialová:
From P Colonies to 2D P Colonies and Simulations of Multiagent Systems. 3-19 - Mario J. Pérez-Jiménez:
A Bioinspired Computing Approach to Model Complex Systems. 20-34 - Claudio Zandron, Alberto Leporati, Luca Manzoni, Giancarlo Mauri, Antonio E. Porreca:
P Systems with Active Membranes Working in Sublinear Space. 35-47
Regular Papers
- Tanveer Ahmed, Rohit Verma, Miroojin Bakshi, Abhishek Srivastava:
Membrane Computing Inspired Approach for Executing Scientific Workflow in the Cloud. 51-65 - Artiom Alhazov, Bogdan Aman, Rudolf Freund:
P Systems with Anti-Matter. 66-85 - Artiom Alhazov, Rudolf Freund:
Priorities, Promoters and Inhibitors in Deterministic Non-cooperative P Systems. 86-98 - Artiom Alhazov, Rudolf Freund:
P Systems with Toxic Objects. 99-125 - Artiom Alhazov, Rudolf Freund, Sergey Verlan:
Promoters and Inhibitors in Purely Catalytic P Systems. 126-138 - Bogdan Aman, Erzsébet Csuhaj-Varjú, Rudolf Freund:
Red-Green P Automata. 139-157 - Mehmet E. Bakir, Florentin Ipate, Savas Konur, Laurentiu Mierla, Ionut-Mihai Niculescu:
Extended Simulation and Verification Platform for Kernel P Systems. 158-178 - Ludek Cienciala, Lucie Ciencialová, Miroslav Langer, Michal Perdek:
The Abilities of P Colony Based Models in Robot Control. 179-193 - Manuel García-Quismondo, Miguel A. Martínez-del-Amor, Mario J. Pérez-Jiménez:
Probabilistic Guarded P Systems, A New Formal Modelling Framework. 194-214 - Zsolt Gazdag, Miguel A. Gutiérrez-Naranjo:
Solving the ST-Connectivity Problem with Pure Membrane Computing Techniques. 215-228 - Zsolt Gazdag, Gábor Kolonits, Miguel A. Gutiérrez-Naranjo:
Simulating Turing Machines with Polarizationless P Systems with Active Membranes. 229-240 - Thomas Hinze, Konrad Grützmann, Benny Höckner, Peter Sauer, Sikander Hayat:
Categorised Counting Mediated by Blotting Membrane Systems for Particle-Based Data Mining and Numerical Algorithms. 241-257 - Sergiu Ivanov:
Polymorphic P Systems with Non-cooperative Rules and No Ingredients. 258-273 - Yuan Kong, Dongming Zhao:
Spiking Neural P Systems with Astrocytes Using the Rules in the Exhaustive Mode. 274-283 - Alberto Leporati, Luca Manzoni, Giancarlo Mauri, Antonio E. Porreca, Claudio Zandron:
Simulating Elementary Active Membranes - with an Application to the P Conjecture. 284-299 - Venkata Padmavati Metta, Srinivasan Raghuraman, Kamala Krithivasan:
Small Universal Spiking Neural P Systems with Cooperating Rules as Function Computing Devices. 300-313 - Venkata Padmavati Metta, Srinivasan Raghuraman, Kamala Krithivasan:
Spiking Neural P Systems with Cooperating Rules. 314-329 - Radu Nicolescu:
Parallel Thinning with Complex Objects and Actors. 330-354 - Adam Obtulowicz:
Causal Nets for Geometrical Gandy-Păun-Rozenberg Machines. 355-372 - Yurii Rogozhin, Artiom Alhazov, Lyudmila Burtseva, Svetlana Cojocaru, Alexandru Colesnicov, Ludmila Malahova:
P System Computational Model as Framework for Hybrid (Membrane-Quantum) Computations. 373-384 - Tao Wang, Gexiang Zhang, Mario J. Pérez-Jiménez:
Fault Diagnosis Models for Electric Locomotive Systems Based on Fuzzy Reasoning Spiking Neural P Systems. 385-395
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