- Page 1: Erzsébet Csuhaj-Varjú Marian Gheo
- Page 5 and 6: Preface Preface This volume contain
- Page 7 and 8: Contents Contents Preface 5 Invited
- Page 9: Invited Presentations
- Page 12 and 13: R. Freund configuration vanishes un
- Page 14 and 15: R. Freund by co-F IN. Two languages
- Page 16 and 17: R. Freund is applicable to a config
- Page 18 and 19: R. Freund Example 1. Consider the P
- Page 20 and 21: R. Freund by a rule. A decay of one
- Page 22 and 23: R. Freund maxobj used in Π [d] . A
- Page 24 and 25: R. Freund with R = {(I : (A, 1) →
- Page 26 and 27: R. Freund 3.3 Models for the 1-Rest
- Page 28 and 29: R. Freund rule is of the form (I :
- Page 30 and 31: R. Freund Yet in contrast to the re
- Page 32 and 33: R. Freund Proof (sketch). We only s
- Page 34 and 35: R. Freund Acknowledgements The auth
- Page 37 and 38: 13th Inter
- Page 39 and 40: Turing and von Neumanns brains and
- Page 41 and 42: Turing and von Neumanns brains and
- Page 43 and 44: Turing and von Neumanns brains and
- Page 45 and 46: Turing and von Neumanns brains and
- Page 47: Turing and von Neumanns brains and
- Page 50 and 51: J. Kelemen computable in certain co
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J. Kelemen mutually interconnected
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J. Kelemen certain sense the same p
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V. Manca expression levels, etc.) d
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Turing computability and membrane c
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Membrane systems and hypercomputati
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A case-study on the influence of no
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A case-study on the influence of no
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A case-study on the influence of no
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A case-study on the influence of no
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A case-study on the influence of no
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A case-study on the influence of no
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A case-study on the influence of no
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A case-study on the influence of no
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A. Alhazov, R. Freund 2 Definitions
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A. Alhazov, R. Freund r| ¬{q1,··
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A. Alhazov, R. Freund - l h : HALT
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A. Alhazov, R. Freund Remark 5. As
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A. Alhazov, R. Freund In Examples 1
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Time-varying sequential P systems t
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Time-varying sequential P systems w
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Time-varying sequential P systems I
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Time-varying sequential P systems T
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Time-varying sequential P systems L
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Time-varying sequential P systems s
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Time-varying sequential P systems C
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One-membrane symport P systems with
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One-membrane symport P systems with
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One-membrane symport P systems with
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One-membrane symport P systems with
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Mobile membranes with objects on su
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Mobile membranes with objects on su
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Mobile membranes with objects on su
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Mobile membranes with objects on su
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Mobile membranes with objects on su
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Mobile membranes with objects on su
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Mobile membranes with objects on su
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Mobile membranes with objects on su
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F.G.C. Cabarle, H.N. Adorna graphs
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F.G.C. Cabarle, H.N. Adorna weight
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F.G.C. Cabarle, H.N. Adorna OR-spli
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F.G.C. Cabarle, H.N. Adorna a spike
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F.G.C. Cabarle, H.N. Adorna Fig. 6.
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F.G.C. Cabarle, H.N. Adorna Fig. 8.
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F.G.C. Cabarle, H.N. Adorna Fig. 10
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F.G.C. Cabarle, H.N. Adorna Referen
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2D P colonies The first rule type,
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2D P colonies - f ∈ A is the fina
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2D P colonies 5. when there are thr
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2D P colonies Fig. 3. The configura
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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Fast distributed DFS solutions for
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R. Freund, I. Pérez-Hurtado, A. Ri
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R. Freund, I. Pérez-Hurtado, A. Ri
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R. Freund, I. Pérez-Hurtado, A. Ri
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R. Freund, I. Pérez-Hurtado, A. Ri
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R. Freund, I. Pérez-Hurtado, A. Ri
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R. Freund, I. Pérez-Hurtado, A. Ri
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Zs. Gazdag, G. Kolonits formula and
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Zs. Gazdag, G. Kolonits Now assume
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Zs. Gazdag, G. Kolonits membrane sy
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Zs. Gazdag, G. Kolonits • In the
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Zs. Gazdag, G. Kolonits References
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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T. Hinze, B. Schell, M. Schumann, C
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F. Ipate, C. Dragomir, R. Lefticaru
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F. Ipate, C. Dragomir, R. Lefticaru
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F. Ipate, C. Dragomir, R. Lefticaru
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F. Ipate, C. Dragomir, R. Lefticaru
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F. Ipate, C. Dragomir, R. Lefticaru
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F. Ipate, C. Dragomir, R. Lefticaru
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F. Ipate, C. Dragomir, R. Lefticaru
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F. Ipate, C. Dragomir, R. Lefticaru
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L.F. Macías-Ramos, M.J. Pérez-Jim
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L.F. Macías-Ramos, M.J. Pérez-Jim
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L.F. Macías-Ramos, M.J. Pérez-Jim
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L.F. Macías-Ramos, M.J. Pérez-Jim
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L.F. Macías-Ramos, M.J. Pérez-Jim
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L.F. Macías-Ramos, M.J. Pérez-Jim
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L.F. Macías-Ramos, M.J. Pérez-Jim
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L.F. Macías-Ramos, M.J. Pérez-Jim
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The efficiency of tissue P systems
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The efficiency of tissue P systems
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The efficiency of tissue P systems
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The efficiency of tissue P systems
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The efficiency of tissue P systems
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The efficiency of tissue P systems
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DCBA: Simulating population dynamic
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DCBA: Simulating population dynamic
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DCBA: Simulating population dynamic
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DCBA: Simulating population dynamic
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DCBA: Simulating population dynamic
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DCBA: Simulating population dynamic
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DCBA: Simulating population dynamic
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DCBA: Simulating population dynamic
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DCBA: Simulating population dynamic
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T. Mihálydeák, Z. Csajbók are ab
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T. Mihálydeák, Z. Csajbók The se
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T. Mihálydeák, Z. Csajbók - an m
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T. Mihálydeák, Z. Csajbók Propos
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T. Mihálydeák, Z. Csajbók 3 P Sy
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T. Mihálydeák, Z. Csajbók 4 Futu
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B. Nagy One of the aim of many peop
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B. Nagy 3. If this clause contain a
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B. Nagy k-level binary tree. Each p
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B. Nagy 2.8 Neural-like Membrane Sy
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B. Nagy Proposition 1. Every CNF fo
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B. Nagy Due to the deterministic fi
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B. Nagy the SAT and n-SAT languages
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B. Nagy 11. M. Hirversalo, Quantum
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Multigraphical membrane systems rev
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Multigraphical membrane systems rev
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Multigraphical membrane systems rev
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Multigraphical membrane systems rev
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R. Pagliarini, O. Agrigoroaiei, G.
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R. Pagliarini, O. Agrigoroaiei, G.
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R. Pagliarini, O. Agrigoroaiei, G.
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R. Pagliarini, O. Agrigoroaiei, G.
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R. Pagliarini, O. Agrigoroaiei, G.
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R. Pagliarini, O. Agrigoroaiei, G.
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R. Pagliarini, O. Agrigoroaiei, G.
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R. Pagliarini, O. Agrigoroaiei, G.
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R. Pagliarini, O. Agrigoroaiei, G.
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A.E. Porreca, A. Leporati, G. Mauri
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A.E. Porreca, A. Leporati, G. Mauri
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A.E. Porreca, A. Leporati, G. Mauri
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A.E. Porreca, A. Leporati, G. Mauri
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A.E. Porreca, A. Leporati, G. Mauri
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A.E. Porreca, A. Leporati, G. Mauri
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A.E. Porreca, A. Leporati, G. Mauri
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A.E. Porreca, A. Leporati, G. Mauri
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P. Ramón, A. Troina unique output
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P. Ramón, A. Troina substitution o
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P. Ramón, A. Troina CWC Modelling
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P. Ramón, A. Troina Fig. 1. Metapo
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P. Ramón, A. Troina Fig. 2. r/K se
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P. Ramón, A. Troina Fig. 3. Compet
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P. Ramón, A. Troina Fig. 4. A Thro
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P. Ramón, A. Troina from were the
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P. Ramón, A. Troina hand, the Calc
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P. Ramón, A. Troina 20. Cardona, M
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Observer/interpreter P systems •
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Observer/interpreter P systems 3 Ob
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Observer/interpreter P systems {a
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Observer/interpreter P systems Proo
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Observer/interpreter P systems ther
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Limits of the power of tissue P sys
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Limits of the power of tissue P sys
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Limits of the power of tissue P sys
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Limits of the power of tissue P sys
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Limits of the power of tissue P sys
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Limits of the power of tissue P sys
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Fast hardware implementations of P
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Fast hardware implementations of P
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Fast hardware implementations of P
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Fast hardware implementations of P
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Fast hardware implementations of P
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RIGHT PROPAGATION LEFT PROPAGATION
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Fast hardware implementations of P
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Fast hardware implementations of P
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Fast hardware implementations of P
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Extended Abstracts
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A. Ţurcanu, F. Ipate 2 Simplifying
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A. Ţurcanu, F. Ipate act1 : cell :