Fifth Brainstorming Week on Membrane Computing

Neural Nets: Tissue P Systems. Lecture Notes in Computer Science 2387, (2002), 290–299. 6. L. Pan, T.-O. Ishdorj. P systems with active membranes and separation rules. Journal of Universal Computer Science, 10, 5, (2004), 630–649. 7. L. Pan, M.J. Pérez-Jiménez. Computational complexity of tissue–like P systems. Journal of Complexity, 26, 3 (2010), 296–315. 8. Gh. Păun. Attacking NP-complete problems. In Unconventional Models of Computation, UMC’2K (I. Antoniou, C. Calude, M. J. Dinneen, eds.), Springer-Verlag, 2000, pp. 94-115. 9. Gh. Păun. Membrane Computing. An Introduction. Springer–Verlag, Berlin, (2002). 10. A. Păun, Gh. Păun. The power of communication: P systems with symport/antiport. New Generation Computing, 20, 3, (2002), 295–305. 11. Gh. Păun, M.J. Pérez-Jiménez, A. Riscos-Núñez. Tissue P System with cell division. In. J. of Computers, Communications and Control, 3, 3, (2008), 295–303. 12. M.J. Pérez-Jiménez, A. Romero-Jiménez, Sancho-Caparrini. Complexity classes in models of cellular computing with membranes. Natural Computing, 2, 3 (2003), 265– 285. 13. M.J. Pérez-Jiménez, A. Romero-Jiménez, F. Sancho-Caparrini. A polynomial complexity class in P systems using membrane division. Journal of Automata, Languages and Combinatorics, 11, 4, (2006), 423-434. 14. M.J. Pérez-Jiménez, P. Sośık. Improving the efficiency of tissue P systems with cell separation. Submitted, 2012. 15. H. Vollmer. Introduction to Circuit Complexity: A Uniform Approach. Springer– Verlag, New York, (1999). Cell Complexes and Membrane Computing for Thinning 2D and 3D Images Raúl Reina-Molina, Daniel Dı́az-Pernil, Miguel A. Gutiérrez-Naranjo Research Group on Computational Topology and Applied Mathematics Department of Applied Mathematics University of Sevilla raureimol@alum.us.es, sbdani@us.es Research Group on Natural Computing Department of Computer Science and Artificial Intelligence University of Sevilla

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