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Note on the complexity of Las Vegas automata problems

Galina Jirásková (2006)

RAIRO - Theoretical Informatics and Applications

We investigate the complexity of several problems concerning Las Vegas finite automata. Our results are as follows. (1) The membership problem for Las Vegas finite automata is in NL. (2) The nonemptiness and inequivalence problems for Las Vegas finite automata are NL-complete. (3) Constructing for a given Las Vegas finite automaton a minimum state deterministic finite automaton is in NP. These results provide partial answers to some open problems posed by Hromkovič and Schnitger [Theoret....

Note on the succinctness of deterministic, nondeterministic, probabilistic and quantum finite automata

Carlo Mereghetti, Beatrice Palano, Giovanni Pighizzini (2001)

RAIRO - Theoretical Informatics and Applications - Informatique Théorique et Applications

We investigate the succinctness of several kinds of unary automata by studying their state complexity in accepting the family { L m } of cyclic languages, where L m = { a k m | k } . In particular, we show that, for any m , the number of states necessary and sufficient for accepting the unary language L m with isolated cut point on one-way probabilistic finite automata is p 1 α 1 + p 2 α 2 + + p s α s , with p 1 α 1 p 2 α 2 p s α s being the factorization of m . To prove this result, we give a general state lower bound for accepting unary languages with isolated cut point on...

Note on the Succinctness of Deterministic, Nondeterministic, Probabilistic and Quantum Finite Automata

Carlo Mereghetti, Beatrice Palano, Giovanni Pighizzini (2010)

RAIRO - Theoretical Informatics and Applications

We investigate the succinctness of several kinds of unary automata by studying their state complexity in accepting the family {Lm} of cyclic languages, where Lm = akm | k ∈ N. In particular, we show that, for any m, the number of states necessary and sufficient for accepting the unary language Lm with isolated cut point on one-way probabilistic finite automata is p 1 α 1 + p 2 α 2 + + p s α s , with p 1 α 1 p 2 α 2 p s α s being the factorization of m. To prove this result, we give a general state lower bound for accepting unary languages...

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