Article
A New Characterization of NP, P, and PSPACE with Accepting Hybrid Networks of Evolutionary Processors
Author/s | Manea, Florin
Margenstern, Maurice Mitrana, Víctor Pérez Jiménez, Mario de Jesús |
Department | Universidad de Sevilla. Departamento de Ciencias de la Computación e Inteligencia Artificial |
Publication Date | 2010 |
Deposit Date | 2018-01-18 |
Published in |
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Abstract | We consider three complexity classes defined on Accepting Hybrid Networks
of Evolutionary Processors (AHNEP) and compare them with the classical
complexity classes defined on the standard computing model of Turing machine. ... We consider three complexity classes defined on Accepting Hybrid Networks of Evolutionary Processors (AHNEP) and compare them with the classical complexity classes defined on the standard computing model of Turing machine. By definition, AHNEPs are deterministic. We prove that the classical complexity class NP equals the family of languages decided by AHNEPs in polynomial time. A language is in P if and only if it is decided by an AHNEP in polynomial time and space. We also show that PSPACE equals the family of languages decided by AHNEPs in polynomial length. |
Citation | Manea, F., Margenstern, M., Mitrana, V. y Pérez Jiménez, M.d.J. (2010). A New Characterization of NP, P, and PSPACE with Accepting Hybrid Networks of Evolutionary Processors. Theory of Computing Systems, 46 (2), 174-192. |
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