Lower Bounds for Unambiguous Automata via Communication Complexity

Abstract

We use results from communication complexity, both new and old ones, to prove lower bounds for unambiguous finite automata (UFAs). We show three results. Complement: There is a language L recognised by an n-state UFA such that the complement language L requires NFAs with n( n) states. This improves on a lower bound by Raskin. Union: There are languages L1, L2 recognised by n-state UFAs such that the union L1 L2 requires UFAs with n( n) states. Separation: There is a language L such that both L and L are recognised by n-state NFAs but such that L requires UFAs with n( n) states. This refutes a conjecture by Colcombet.