Content of P-Article

June 24, 2009 (10:46:55)

Bibliography

1
Artiom Alhazov.
Ciliate operations without context in a membrane computing framework.
Romanian Journal of Information Science and Technology, 10(4):315-322, 2008.

2
Artiom Alhazov and Yurii Rogozhin.
Generating languages by P systems with minimal symport/antiport.
The Computer Science Journal of Moldova, 14(3):299-323, 2006.

3
Subbaiah Annadurai, Thiyagarajan Kalyani, Vincent Rajkumar Dare, and Durairaj Gnanaraj Thomas.
P systems generating iso-picture languages.
Progress in Natural Science, 18(5):617-622, 2008.

4
Subbaiah Annadurai, Thiyagarajan Kalyani, Vincent Rajkumar Dare, and Durairaj Gnanaraj Thomas.
Trajectory P systems.
Progress in Natural Science, 18(5):611-616, 2008.

5
Roberto Barbuti, Andrea Maggiolo-Schettini, Paolo Milazzo, and Simone Tini.
Compositional semantics and behavioral equivalences for P systems.
Theoretical Computer Science, 395(1):77-100, 2008.

6
Roberto Barbuti, Andrea Maggiolo-Schettini, Paolo Milazzo, and Simone Tini.
A P systems flat form preserving step-by-step behaviour.
Fundamenta Informaticae, 87(1):1-34, 2008.

7
Roberto Barbuti, Andrea Maggiolo-Schettini, Paolo Milazzo, and Angelo Troina.
Bisimulations in calculi modelling membranes.
Formal Aspects of Computing, 20(4-5):351-377, 2008.

8
Francesco Bernardini, Marian Gheorghe, Maurice Margenstern, and Sergey Verlan.
How to synchronize the activity of all components of a P system?
International Journal of Foundations of Computer Science, 19(5):1183-1198, 2008.

9
Daniela Besozzi, Paolo Cazzaniga, Dario Pescini, and Giancarlo Mauri.
Seasonal variance in P system models for metapopulations.
Progress in Natural Science, 17(4):392-400, 2007.

10
Daniela Besozzi, Paolo Cazzaniga, Dario Pescini, and Giancarlo Mauri.
Modelling metapopulations with stochastic membrane systems.
Biosystems, 91(3):499-514, 2008.

11
Luca Bianco and Vincenzo Manca.
Symbolic generation and representation of complex oscillations.
International Journal of Computer Mathematics, 83(7):549-568, 2006.

12
Aneta Binder, Rudolf Freund, Georg Lojka, and Marion Oswald.
Applications of membrane systems in distributed systems.
Progress in Natural Science, 17(4):401-409, 2007.

13
Cosmin Bonchis, Cornel Izbasa, and Gabriel Ciobanu.
Information theory over multisets.
Computing and Informatics, 27(3+):441-451, 2008.

14
Cosmin Bonchis, Cornel Izbasa, and Gabriel Ciobanu.
Compositional asynchronous membrane systems.
Progress in Natural Science, 17(4):411-416, 2007.

15
Robert Brijder, Matteo Cavaliere, Agustín Riscos-Núñez, Grzegorz Rozenberg, and Sburlan Dragos.
Membrane systems with proteins embedded in membranes.
Theoretical Computer Science, 404(1-2):26-39, 2008.

16
Nadia Busi.
Using well-structured transition systems to decide divergence for catalytic P systems.
Theoretical Computer Science, 372(2-3):125-135, 2007.

17
Alberto Castellini, Giuditta Franco, and Vincenzo Manca.
Hybrid functional Petri nets as MP systems.
Natural Computing, to appear.

18
Matteo Cavaliere, Rudolf Freund, Marion Oswald, and Dragos Sburlan.
Multiset random context grammars, checkers, and transducers.
Theoretical Computer Science, 372(2-3):136-151, 2007.

19
Matteo Cavaliere, Radu Mardare, and Sean Sedwards.
A multiset-based model of synchronizing agents: Computability and robustness.
Theoretical Computer Science, 391(3):216-238, 2008.

20
Matteo Cavaliere and Ivan Mura.
Experiments on the reliability of stochastic spiking neural P systems.
Natural Computing, 7(4):453-470, 2008.

21
Rodica Ceterchi and Alexandru Ioan Tomescu.
Implementing sorting networks with spiking neural P systems.
Fundamenta Informaticae, 87(1):35-48, 2008.

22
Smitha Cheruku, Andrei Paun, Francisco J. Romero-Campero, Mario J. Pérez-Jiménez, and Oscar H. Ibarra.
Simulating FAS-induced apoptosis by using P systems.
Progress in Natural Science, 17(4):424-431, 2007.

23
Ludek Cienciala, Lucie Ciencialová, and Alice Kelemenová.
Homogeneous p colonies.
Computing and Informatics, 27(3+):481-496, 2008.

24
Gabriel Ciobanu and Bogdan Aman.
On the relationship between membranes and ambients.
Biosystems, 91(3):515-530, 2008.

25
Gabriel Ciobanu and Laura Cornacel.
Probabilistic transitions for P systems.
Progress in Natural Science, 17(4):431-441, 2007.

26
Gabriel Ciobanu and Andreas Resios.
Computational complexity of simple P systems.
Fundamenta Informaticae, 87(1):49-59, 2008.

27
Mónica Cordona, M. Angels Colomer, Mario J. Pérez Jiménez, and Alba Zaragoza.
Hierarchical clustering with membrane computing.
Computing and Informatics, 27(3+):497-513, 2008.

28
David W. Corne and Pierluigi Frisco.
Dynamics of HIV infection studied with cellular automata and conformon-P systems.
Biosystems, 91(3):531-544, 2008.

29
Erzsébet Csuhaj-Varjú, Maurice Margenstern, György Vaszil, and Sergey Verlan.
On small universal antiport P systems.
Theoretical Computer Science, 372(2-3):152-164, 2007.

30
Erzsébet Csuhaj-Varjú, Gheorghe Paun, and György Vaszil.
Tissue-like P systems with dynamically emerging requests.
International Journal of Foundations of Computer Science, 19(3):729-745, 2008.

31
Erzsébet Csuhaj-Varjú and György Vaszil.
(mem)brane automata.
Theoretical Computer Science, 404(1-2):52-60, 2008.

32
Agostino Dovier, Carla Piazza, and Gianfranco Rossi.
A uniform approach to constraint-solving for lists multisets, compact lists, and sets.
ACM Transactions on Computational Logic, 9(3):15:1-15:30, 2008.

33
Federico Fontana and Vincenzo Manca.
Discrete solutions to differential equations by metabolic p systems.
Theoretical Computer Science, 372(2-3):165-182, 2007.

34
Federico Fontana and Vincenzo Manca.
Predator-prey dynamics in P systems ruled by metabolic algorithm.
Biosystems, 91(3):545-557, 2008.

35
Giuditta Franco, Nataša Jonoska, Barbara Osborn, and Anna Plaas.
Knee joint injury and repair modeled by membrane systems.
Biosystems, 91(3):473-488, 2008.

36
Rudolf Freund, Mihai Ionescu, and Marion Oswald.
Extended spiking neural P systems with decaying spikes and/or total spiking.
International Journal of Foundations of Computer Science, 19(5):1223-1234, 2008.

37
Rudolf Freund and Marion Oswald.
Partial halting in P systems.
International Journal of Foundations of Computer Science, 18(6):1215-1225, 2007.

38
Rudolf Freund and Marion Oswald.
Regular omega-languages defined by finite extended spiking neural P systems.
Fundamenta Informaticae, 83(1-2):65-73, 2008.

39
Rudolf Freund, Marion Oswald, and Thomas Schirk.
How a membrane agent buys goods in a membrane store.
Progress in Natural Science, 17(4):442-448, 2007.

40
Yan Gao and Hendrik Jan Hoogeboom.
P systems with single passenger carriers.
International Journal of Foundations of Computer Science, 18(6):1227-1235, 2007.

41
Marian Gheorghe, Natalio Krasnogor, and Miguel Camara.
P systems applications to systems biology.
Biosystems, 91(3):435-437, 2008.

42
Marian Gheorghe, Vincenzo Manca, and Francisco J. Romero-Campero.
Deterministic and stochastic P systems for modeling cellular processes.
Natural Computing, to appear.

43
Miguel A. Gutiérrez-Naranjo, Mario J. Pérez-Jiménez, and Agustín Riscos-Núñez.
On the degree of parallelism in membrane systems.
Theoretical Computer Science, 372(2-3):183-195, 2007.

44
Miguel A. Gutiérrez-Naranjo, Mario J. Pérez-Jiménez, Agustín Riscos-Núñez, and Francisco J. Romero-Campero.
Computational efficiency of dissolution rules in membrane systems.
International Journal of Computer Mathematics, 83(7):593-611, 2006.

45
Miguel A. Gutiérrez-Naranjo, Mario J. Pérez-Jiménez, Agustín Riscos-Núñez, and Francisco J. Romero-Campero.
How to express tumours using membrane systems.
Progress in Natural Science, 17(4):449-457, 2007.

46
Chen Haiming, Tseren-Onolt Ishdorj, and Gheorghe Paun.
Computing along the axon.
Progress in Natural Science, 17(4):417-423, 2007.

47
Chunyi Huang and Xiaoju Dong.
Maximally parallel attribute on P systems: Properties and applications.
Progress in Natural Science, 18(5):629-632, 2008.

48
Liang Huang and Il Hong Suh.
Controller design for a marine diesel engine using membrane computing.
International Journal of Innovative Computing, Information and Control, 5(4):899-912, 2009.

49
Liang Huang, Lei Sun, Ning Wang, and Xiaoming Jin.
Multiobjective optimization of simulated moving bed by tissue P system.
Chinese Journal of Chemical Engineering, 15(5):683-690, 2007.

50
Oscar H. Ibarra, Andrei Paun, Gheorghe Paun, Alfonso Rodríguez-Patón, Petr Sosík, and Sara Woodworth.
Normal forms for spiking neural P systems.
Theoretical Computer Science, 372(2-3):196-217, 2007.

51
Oscar H. Ibarra and Sara Woodworth.
Characterizing regular languages by spiking neural P systems.
International Journal of Foundations of Computer Science, 18(6):1247-1256, 2007.

52
Mihai Ionescu and Dragos Sburlan.
Some applications of spiking neural P systems.
Computing and Informatics, 27(3+):515-528, 2008.

53
Tseren-Onolt Ishdorj and Alberto Leporati.
Uniform solutions to SAT and 3-SAT by spiking neural P, systems with pre-computed resources.
Natural Computing, 7(4):519-534, 2008.

54
John Jack, Alfonso Rodríguez-Patón, Oscar H. Ibarra, and Andrei Paun.
Discrete nondeterministic modeling of the Fas pathway.
International Journal of Foundations of Computer Science, 19(5):1147-1162, 2008.

55
Lila Kari and Grzegorz Rozenberg.
The many facets of natural computing.
Communications of the ACM, 51(10):72-83, 2008.

56
Jozef Kelemen.
Some questions inspired by (membrane computing motivated) language-theoretic models hardware.
Computing and Informatics, 27(3+):571-580, 2008.

57
Jetty Kleijn and Maciej Koutny.
Processes of membrane systems with promoters and inhibitors.
Theoretical Computer Science, 404(1-2):112-126, 2008.

58
Jetty Kleijn and Maciej Koutny.
A Petri net model for membrane systems with dynamic structure.
Natural Computing, to appear.

59
Waldemar Korczynski.
Paun's systems as models of economic systems.
Progress in Natural Science, 17(4):466-470, 2007.

60
Shankara N. Krishna.
Universality results for P systems based on brane calculi operations.
Theoretical Computer Science, 371(1-2):83-105, 2007.

61
Alberto Leporati, Daniela Besozzi, Paolo Cazzaniga, Claudio Ferretti, and Dario Pescini.
Computing with energy and chemical reactions.
Natural Computing, to appear.

62
Alberto Leporati and Sara Felloni.
Three ``quantum'' algorithms to solve 3-SAT.
Theoretical Computer Science, 372(2-3):218-241, 2007.

63
Alberto Leporati and Miguel A. Gutiérrez-Naranjo.
Solving subset sum by spiking neural P systems with pre-computed resources.
Fundamenta Informaticae, 87(1):61-77, 2008.

64
Alberto Leporati, Claudio Zandron, and Giancarlo Mauri.
Solving the factorization problem with P systems.
Progress in Natural Science, 17(4):471-478, 2007.

65
Huang Liang, He Xiongxiong, Wang Ning, and Xie Yi.
P systems based multi-objective optimization algorithm.
Progress in Natural Science, 17(4):458-465, 2007.

66
Vincenzo Manca.
Metabolic P systems for biochemical dynamics.
Progress in Natural Science, 17(4):384-391, 2007.

67
Vincenzo Manca.
The metabolic algorithm for P systems: Principles and applications.
Theoretical Computer Science, 404(1-2):142-155, 2008.

68
Vincenzo Manca and Luca Bianco.
Biological networks in metabolic P systems.
Biosystems, 91(3):489-498, 2008.

69
Radu Mardare, Matteo Cavaliere, and Sean Sedwards.
A logical characterization of robustness, mutants and species in colonies of agents.
Intenational Journal of Foundations of Computer Science, 19(5):1199-1221, 2008.

70
Victor Martinez, Luis Fernandez, Fernando Arroyo, and Abraham Gutierrez.
HW implementation of a optimized algorithm for the application of active rules in a transition P-system.
International Journal on Information Theory and Applications, 14(4):324-331, 2007.

71
Davide Molteni, Claudio Ferretti, and Giancarlo Mauri.
Frequency membrane systems.
Computing and Informatics, 27(3+):467-479, 2008.

72
Michael Muskulus, Daniela Besozzi, Robert Brijder, Paolo Cazzaniga, Sanne Houweling, Dario Pescini, and Grzegorz Rozenberg.
Cycles and communicating classes in membrane systems and molecular dynamics.
Theoretical Computer Science, 372(2-3), 2007.

73
Benedek Nagy and Laszlo Szegedi.
Membrane computing and geographical operating systems.
Journal of Universal Computer Science, 12(9):1312-1331, 2006.

74
Van Nguyen, David Kearney, and Gianpaolo Gioiosa.
An implementation of membrane computing using reconfigurable hardware.
Computing and Informatics, 27(3+):551-569, 2008.

75
Taishin Y. Nishida.
Membrane algorithm with brownian subalgorithm and genetic subalgorithm.
International Journal of Foundations of Computer Science, 18(6):1353-1360, 2007.

76
Gheorghe Paun.
Tracing some open problems in membrane computing.
Romanian Journal of Information Science and Technology, 10(4):303-314, 2007.

77
H. Ramesh and Raghavan Rama.
Rewriting P systems with conditional communication: Improved hierarchies.
Computing and Informatics, 27(3+):453-465, 2008.

78
Francisco J. Romero-Campero, Marian Gheorghe, Gabriel Ciobanu, John M. Auld, and Mario J. Pérez-Jiménez.
Cellular modelling using P systems and process algebra.
Progress in Natural Science, 17(4):375-383, 2007.

79
Francisco J. Romero-Campero and Mario J. Pérez-Jiménez.
A model of the quorum sensing system in Vibrio fischeri using P systems.
Artificial Life, 14(1):95-109, 2008.

80
Francisco J. Romero-Campero and Mario J. Pérez-Jiménez.
Modelling gene expression control using P systems: The Lac Operon, a case study.
Biosystems, 91(3):438-457, 2008.

81
Petr Sosík.
The power of catalysts and priorities in membranes.
Grammars, 6:13-24, 2003.

82
Petr Sosík and Alfonso Rodríguez-Patón.
Membrane computing and complexity theory: A characterization of PSPACE.
Journal of Computer and System Sciences, 73(1):137-152, 2007.

83
Antoine Spicher, Olivier Michel, Mikolaj Cieslak, Jean-Louis Giavitto, and Przemyslaw Prusinkiewicz.
Stochastic P systems and the simulation of biochemical processes with dynamic compartments.
Biosystems, 91(3):458-472, 2008.

84
K. G. Subramanian, Rosihan M. Ali, Atulya K. Nagar, and Maurice Margenstern.
Array P systems and t-communication.
Fundamenta Informaticae, 91(1):145-159, 2009.

85
K. G. Subramanian, R. Saravanan, M. Geethalakshmr, P. Helen Chandra, and M. Margenstern.
P systems with array objects and array rewriting rules.
Progress in Natural Science, 17(4):479-485, 2007.

86
Mai Umeki and Yasuhiro Suzuki.
A simple membrane computing method for simulating bio-chemical reactions.
Computing and Informatics, 27(3+):515-528, 2008.

87
Sergey Verlan, Francesco Bernardini, Marian Gheorghe, and Maurice Margenstern.
Generalized communicating P systems.
Theoretical Computer Science, 404(1-2):170-184, 2008.

88
Antonio Vitale, Giancarlo Mauri, and Claudio Zandron.
Simulation of a bounded symport/antiport P system with Brane calculi.
Biosystems, 91(3):558-571, 2008.

89
Xu Xian.
Tissue P systems with parallel rules on channels.
Progress in Natural Science, 17(4):486-491, 2007.

90
Linmin Yang, Zhe Dang, and Oscar H. Ibarra.
On stateless automata and P systems.
Intenational Journal of Foundations of Computer Science, 19(5):1259-1276, 2008.

91
Claudio Zandron, Alberto Leporati, Claudio Ferretti, Giancarlo Mauri, and Mario J. Pérez-Jiménez.
On the computational efficiency of polarizationless recognizer P systems with strong division and dissolution.
Fundamenta Informaticae, 87(1):79-91, 2008.

92
Ge-Xiang Zhang, Marian Gheorghe, and Chao-Zhong Wu.
A quantum-inspired evolutionary algorithm based on P systems for knapsack problem.
Fundamenta Informaticae, 87(1):93-116, 2008.

93
Liang Zhang, Yao; Huang.
A variant of p systems for optimization.
NEUROCOMPUTING, 72(4-6):1355-1360, 2009.

94
Xingyi Zhang, Xiangxiang Zeng, and Linqiang Pan.
Smaller universal spiking neural P systems.
Fundamenta Informaticae, 87(1):117-136, 2008.