State complexity of operations on input-driven pushdown automata

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摘要

The family of languages recognized by deterministic input-driven pushdown automata (IDPDA; a.k.a. visibly pushdown automata, a.k.a. nested word automata) is known to be closed under concatenation, Kleene star and reversal (under natural assumptions on the partition of the alphabet). As shown by Alur and Madhusudan (2004) [2], the Kleene star and the reversal of an n-state IDPDA can be represented by an IDPDA with 2O(n2) states, while concatenation of an m-state and an n-state IDPDA is represented by an IDPDA with 2O((m+n)2) states. This paper presents more efficient constructions for the Kleene star and for the reversal, which yield 2Θ(nlog⁡n) states, as well as an m2Θ(nlog⁡n)-state construction for the concatenation. These constructions are optimal up to a factor in the exponent, due to the close lower bounds previously established by Piao and Salomaa (2009) [27].

论文关键词:Input-driven automata,Pushdown automata,Visibly pushdown automata,Nested word automata,State complexity

论文评审过程:Received 28 October 2014, Revised 29 January 2017, Accepted 30 January 2017, Available online 3 February 2017, Version of Record 27 February 2017.

论文官网地址:https://doi.org/10.1016/j.jcss.2017.02.001