Unboundedness problems for machines with reversal-bounded counters
Abstract
We consider a general class of decision problems concerning formal languages, called ``(one-dimensional) unboundedness predicates'', for automata that feature reversal-bounded counters (RBCA). We show that each problem in this class reduces -- non-deterministically in polynomial time -- to the same problem for just finite automata. We also show an analogous reduction for automata that have access to both a pushdown stack and reversal-bounded counters (PRBCA). This allows us to answer several open questions: For example, we show that it is coNP-complete to decide whether a given (P)RBCA language is bounded, meaning whether there exist words with . For PRBCA, even decidability was open. Our methods also show that there is no language of a (P)RBCA of intermediate growth. This means, the number of words of each length grows either polynomially or exponentially. Part of our proof is likely of independent interest: We show that one can translate an RBCA into a machine with -counters in logarithmic space, while preserving the accepted language.
Cite
@article{arxiv.2301.10198,
title = {Unboundedness problems for machines with reversal-bounded counters},
author = {Pascal Baumann and Flavio D'Alessandro and Moses Ganardi and Oscar Ibarra and Ian McQuillan and Lia Schütze and Georg Zetzsche},
journal= {arXiv preprint arXiv:2301.10198},
year = {2023}
}