Journal: Natural Computing

Volume 8, Issue 4

643 -- 644José Manuel Ferrández, José Mira Mira. Non-conventional computing paradigms
645 -- 661Javier Monserrat. Neural networks and quantum neurology: a speculative heuristic towards the formal architecture of psychism
663 -- 679Manuel Calixto. Quantum computation and cryptography: an overview
681 -- 702Alberto Leporati, Giancarlo Mauri, Claudio Zandron, Gheorghe Paun, Mario J. Pérez-Jiménez. Uniform solutions to SAT and Subset Sum by spiking neural P systems
703 -- 717Alberto Leporati, Claudio Ferretti, Giancarlo Mauri, Mario J. Pérez-Jiménez, Claudio Zandron. Complexity aspects of polarizationless membrane systems
719 -- 738José Santos, Ángel Monteagudo. Genetic code optimality studied by means of simulated evolution and within the coevolution theory of the canonical code organization
739 -- 755José Manuel Ferrández, Ana E. Delgado, José Mira Mira. Neural computation as adaptive association process in cortical sensorial maps
757 -- 775José Antonio Martin H., Javier de Lope Asiaín, Darío Maravall. Adaptation, anticipation and rationality in natural and artificial systems: computational paradigms mimicking nature
777 -- 779Marian Gheorghe, Natalio Krasnogor. P-systems and X-machines
781 -- 796Jetty Kleijn, Maciej Koutny. A Petri net model for membrane systems with dynamic structure
797 -- 806Daniel Díaz-Pernil, Mario J. Pérez-Jiménez, Álvaro Romero Jiménez. Efficient simulation of tissue-like P systems by transition cell-like P systems
807 -- 816Gabriel Ciobanu, Andreas Resios. Complexity of evolution in maximum cooperative P systems
817 -- 832Petros Kefalas, Ioanna Stamatopoulou, Ilias Sakellariou, George Eleftherakis. Transforming communicating X-machines into P systems
833 -- 846Florentin Ipate, Marian Gheorghe. Finite state based testing of P systems
847 -- 864Vincenzo Manca, Roberto Pagliarini, Simone Zorzan. A photosynthetic process modelled by a metabolic P system
865 -- 889Olivier Michel, Antoine Spicher, Jean-Louis Giavitto. Rule-based programming for integrative biological modeling