Journal article

Publication year: 2021

Pages: 1-28

Journal: Fundamenta Informaticae

Volume number: 180

Issue number: 1-2

ISSN: 0169-2968

eISSN: 1875-8681

DOI Link: https://doi.org/10.3233/FI-2021-2032

Publisher: SAGE Publications

Abstract: 
We study the computational and descriptional complexity of self-verifying pushdown automata (SVPDA) and self-verifying realtime queue automata (SVRQA). A self-verifying automaton is a nondeterministic device whose nondeterminism is symmetric in the following sense. Each computation path can give one of the answers yes, no, or do not know. For every input word, at least one computation path must give either the answer yes or no, and the answers given must not be contradictory. We show that SVPDA and SVRQA are automata characterizations of so-called complementation kernels, that is, context-free or realtime nondeterministic queue automaton languages whose complement is also context free or accepted by a realtime nondeterministic queue automaton. So, the families of languages accepted by SVPDA and SVRQA are strictly between the families of deterministic and nondeterministic languages. Closure properties and various decidability problems are considered. For example, it is shown that it is not semidecidable whether a given SVPDA or SVRQA can be made self-verifying. Moreover, we study descriptional complexity aspects of these machines. It turns out that the size trade-offs between nondeterministic and self-verifying as well as between self-verifying and deterministic automata are non-recursive. That is, one can choose an arbitrarily large recursive function f, but the gain in economy of description eventually exceeds f when changing from the former system to the latter.

Harvard Citation style: Fernau, H., Kutrib, M. and Wendlandt, M. (2021) Self-Verifying Pushdown and Queue Automata, Fundamenta Informaticae, 180(1-2), pp. 1-28. https://doi.org/10.3233/FI-2021-2032

APA Citation style: Fernau, H., Kutrib, M., & Wendlandt, M. (2021). Self-Verifying Pushdown and Queue Automata. Fundamenta Informaticae. 180(1-2), 1-28. https://doi.org/10.3233/FI-2021-2032