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      Emptiness of Stack Automata is NEXPTIME-complete: A Correction

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          Abstract

          A saturation algorithm for collapsible pushdown systems was published in ICALP 2012. This work introduced a class of stack automata used to recognised regular sets of collapsible pushdown configurations. It was shown that these automata form an effective boolean algebra, have a linear time membership problem, and are equivalent to an alternative automata representation appearing in LICS 2010. It was also claimed that the emptiness problem for stack automata is PSPACE-complete. Unfortunately, this claim is not true. We show that the problem is in fact NEXPTIME-complete when the stacks being accepted are collapsible pushdown stacks, rather than the annotated stacks used in ICALP 2012.

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          A Saturation Method for Collapsible Pushdown Systems

          Chris Broadbent, Arnaud Carayol, Matthew Hague (2012)
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            Recursion Schemes and Logical Reflection

            Christopher H. Broadbent, Arnaud Carayol, C-H Luke Ong (2010)
            Article 0 comments Cited 8 times – based on 0 reviews
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              Symbolic Reachability Analysis of Higher-Order Context-Free Processes

              Ahmed Bouajjani, Antoine Meyer (2004)
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                Publication date Created: 30 May 2018
                Article
                ArXiV ID: 1805.11873
                SO-VID: 7af3f033-1c7b-45e3-9f83-7a00ec6de608
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                http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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                ScienceOpen disciplines: Theoretical computer science
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                ScienceOpen disciplines: Theoretical computer science

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