Networks of evolutionary processors J Castellanos, C Martín-Vide, V Mitrana, JM Sempere Acta informatica 39 (6-7), 517-529, 2003 | 161 | 2003 |

Solving NP-complete problems with networks of evolutionary processors J Castellanos, C Martin-Vide, V Mitrana, JM Sempere International Work-Conference on Artificial Neural Networks, 621-628, 2001 | 128 | 2001 |

Accepting hybrid networks of evolutionary processors M Margenstern, V Mitrana, MJ Pérez-Jiménez International Workshop on DNA-Based Computers, 235-246, 2004 | 90 | 2004 |

Hybrid networks of evolutionary processors C Martin-Vide, V Mitrana, MJ Perez-Jimenez, F Sancho-Caparrini Genetic and Evolutionary Computation Conference, 401-412, 2003 | 90 | 2003 |

Evolutionary systems: a language generating device inspired by evolving communities of cells E Csuhaj-Varjú, V Mitrana Acta Informatica 36 (11), 913-926, 2000 | 74 | 2000 |

Multiset automata E Csuhaj-Varjú, C Martín-Vide, V Mitrana Workshop on Membrane Computing, 69-83, 2000 | 59 | 2000 |

Formal languages and applications C Martín-Vide, V Mitrana, G Păun springer, 2013 | 57 | 2013 |

Parallel finite automata systems communicating by states C Martin-Vide, A Mateescu, V Mitrana International Journal of Foundations of Computer Science 13 (05), 733-749, 2002 | 52 | 2002 |

On the size complexity of universal accepting hybrid networks of evolutionary processors F Manea, C Martin-Vide, V Mitrana Mathematical Structures in Computer Science 17 (4), 753, 2007 | 48 | 2007 |

A new operation on words suggested by DNA biochemistry: Hairpin completion D Cheptea, C Martın-Vide, V Mitrana Proc. Transgressive Computing, 105-114, 2006 | 48 | 2006 |

Accepting networks of splicing processors: Complexity results F Manea, C Martin-Vide, V Mitrana Theoretical Computer Science 371 (1-2), 72-82, 2007 | 47 | 2007 |

Hybrid networks of evolutionary processors are computationally complete E Csuhaj-Varjú, C Martín-Vide, V Mitrana Acta Informatica 41 (4), 257-272, 2005 | 46 | 2005 |

On the size complexity of hybrid networks of evolutionary processors J Castellanos, P Leupold, V Mitrana Theoretical Computer Science 330 (2), 205-220, 2005 | 45 | 2005 |

All NP-problems can be solved in polynomial time by accepting hybrid networks of evolutionary processors of constant size F Manea, V Mitrana Information Processing Letters 103 (3), 112-118, 2007 | 44 | 2007 |

Operations and language generating devices suggested by the genome evolution J Dassow, V Mitrana, A Salomaa Theoretical Computer Science 270 (1-2), 701-738, 2002 | 43 | 2002 |

Extended finite automata over groups V Mitrana, R Stiebe Discrete Applied Mathematics 108 (3), 287-300, 2001 | 43 | 2001 |

On some algorithmic problems regarding the hairpin completion F Manea, C Martín-Vide, V Mitrana Discrete Applied Mathematics 157 (9), 2143-2152, 2009 | 37 | 2009 |

On the regularity of duplication closure J Dassow, V Mitrana, G Paun BULLETIN-EUROPEAN ASSOCIATION FOR THEORETICAL COMPUTER SCIENCE 69, 133-136, 1999 | 37 | 1999 |

Hybrid cooperating/distributed grammar systems V MITRANA Computers and Artificial Intelligence 12 (1), 83-88, 1993 | 37 | 1993 |

Superposition based on Watson–Crick-like complementarity P Bottoni, A Labella, V Manca, V Mitrana Theory of Computing Systems 39 (4), 503-524, 2006 | 36 | 2006 |