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Polynomial-time P systems with active membranes characterise PSPACE by exploiting membranes nested to a polynomial depth, which may be subject to membrane division rules. When only elementary (leaf) membrane division rules are allowed, the computing power decreases to PPP = P#P, the class of problems solvable in polynomial time by deterministic Turingmachines equipped with oracles for counting (or majority) problems. In this paper we investigate a variant of intermediate power, limiting membrane nesting (hence membrane division) to constant depth, and we prove that the resulting P systems can solve all problems in the counting hierarchy CH, which is located between PPP and PSPACE. In particular, for each integer k ≥ 0 we provide a lower bound to the computing power of P systems of depth k.
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Tom
Strony
97--111
Opis fizyczny
Biblioiogr. 11 poz.
Twórcy
autor
- Dipartimento di Informatica, Sistemistica e Comunicazione Universit`a degli Studi di Milano-Bicocca Viale Sarca 336/14, 20126 Milano, Italy
autor
- Dipartimento di Informatica, Sistemistica e Comunicazione Universit`a degli Studi di Milano-Bicocca Viale Sarca 336/14, 20126 Milano, Italy
autor
- Dipartimento di Informatica, Sistemistica e Comunicazione Universit`a degli Studi di Milano-Bicocca Viale Sarca 336/14, 20126 Milano, Italy
autor
- Dipartimento di Informatica, Sistemistica e Comunicazione Universit`a degli Studi di Milano-Bicocca Viale Sarca 336/14, 20126 Milano, Italy
autor
- Dipartimento di Informatica, Sistemistica e Comunicazione Universit`a degli Studi di Milano-Bicocca Viale Sarca 336/14, 20126 Milano, Italy
Bibliografia
- [1] Alhazov, A., Martín-Vide, C., Pan, L.: Solving a PSPACE-complete problem by recognizing P systems with restricted active membranes, Fundamenta Informaticae, 58(2), 2003, 67–77.
- [2] Hemaspaandra, L. A., Ogihara, M.: The Complexity Theory Companion, Texts in Theoretical Computer Science, Springer, 2002.
- [3] Leporati, A., Manzoni, L., Mauri, G., Porreca, A. E., Zandron, C.: Simulating elementary active membranes, with an application to the P conjecture, in: 15th International Conference on Membrane Computing, Proceedings (M. Gheorghe, P. Sosík, ˇS. Vavrečková, Eds.), 2014, 251–266.
- [4] Murphy, N., Woods, D.: The computational power of membrane systems under tight uniformity conditions, Natural Computing, 10(1), 2011, 613–632.
- [5] Păun, Gh.: P systems with active membranes: Attacking NP-complete problems, Journal of Automata, Languages and Combinatorics, 6(1), 2001, 75–90.
- [6] Pérez-Jiménez, M. J., Romero-Jiménez, A., Sancho-Caparrini, F.: Complexity classes in models of cellular computing with membranes, Natural Computing, 2(3), 2003, 265–284.
- [7] Porreca, A. E., Leporati, A., Mauri, G., Zandron, C.: P systems simulating oracle computations, in: Membrane Computing, 12th International Conference, CMC 2011 (M. Gheorghe, Gh. P˘aun, A. Salomaa, G. Rozenberg, S. Verlan, Eds.), vol. 7184 of Lecture Notes in Computer Science, Springer, 2012, 346–358.
- [8] Porreca, A. E., Murphy, N.: First steps towards linking membrane depth and the Polynomial Hierarchy, in: Eight BrainstormingWeek on Membrane Computing (M. A.Martínez-del-Amor,Gh. Păun, I. Pérez-Hurtado, A. Riscos-Nuňez, Eds.), number 1/2010 in RGNC Reports, Fénix Editora, 2010, 255–266.
- [9] Sosík, P., Rodríguez-Patón,A.: Membrane computing and complexity theory: A characterization of PSPACE, Journal of Computer and System Sciences, 73(1), 2007, 137–152.
- [10] Zandron, C., Ferretti, C., Mauri, G.: Solving NP-complete problems using P systems with active membranes, in: Unconventional Models of Computation, UMC’2K, Proceedings of the Second International Conference (I. Antoniou, C. S. Calude, M. J. Dinneen, Eds.), Springer, 2001, 289–301.
- [11] Zandron, C., Leporati, A., Ferretti, C., Mauri, G., Pérez-Jiménez, M. J.: On the computational efficiency of polarizationless recognizer P systems with strong division and dissolution, Fundamenta Informaticae, 87, 2008, 79–91.
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Bibliografia
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