On the power of 2-way probabilistic finite state automata

Author

Dwork, Cynthia ; Stockmeyer, L.

Author_Institution

IBM Almaden Res. Center, San Jose, CA, USA

fYear

1989

fDate

30 Oct-1 Nov 1989

Firstpage

480

Lastpage

485

Abstract

The recognition power of two-way probabilistic finite-state automata (2PFAs) is studied. It is shown that any 2PFA recognizing a nonregular language must use exponential expected time infinitely often. The power of interactive proof systems (IPSs) where the verifier is a 2PFA is also investigated. It is shown that (1) IPSs in which the verifier uses private randomization are strictly more powerful than IPSs in which the random choices of the verifier are made public to the prover. (2) IPSs in which the verifier uses public randomization are strictly more powerful than 2PFAs alone, that is, without a prover; (3) every language accepted by some deterministic Turing machine in exponential time can be accepted by some IPS. Other results concern IPSs with 2PFA verifiers that run in polynomial expected time

Keywords

computational complexity; finite automata; formal languages; pattern recognition; probability; 2-way probabilistic finite state automata; 2PFA verifiers; exponential expected time; interactive proof systems; nonregular language; private randomization; public randomization; recognition power; Automata; Automatic control; Circuits; Complexity theory; Computational modeling; Decision trees; Magnetic heads; Polynomials; Radio access networks; Turing machines;

fLanguage

English

Publisher

ieee

Conference_Titel

Foundations of Computer Science, 1989., 30th Annual Symposium on

Conference_Location

Research Triangle Park, NC

Print_ISBN

0-8186-1982-1

Type

conf

DOI

10.1109/SFCS.1989.63522

Filename

63522