Approximating the Maximum Number of Synchronizing States in Automata

Abstract

We consider the problem Max Sync Set of finding a maximum synchronizing set of states in a given automaton. We show that the decision version of this problem is PSPACE-complete and investigate the approximability of Max Sync Set for binary and weakly acyclic automata (an automaton is called weakly acyclic if it contains no cycles other than self-loops). We prove that, assuming P NP, for any > 0, the Max Sync Set problem cannot be approximated in polynomial time within a factor of O(n1 - ) for weakly acyclic n-state automata with alphabet of linear size, within a factor of O(n12 - ) for binary n-state automata, and within a factor of O(n13 - ) for binary weakly acyclic n-state automata. Finally, we prove that for unary automata the problem becomes solvable in polynomial time.