Presburger Büchi Tree Automata with Applications to Logics with Expressive Counting

Abstract: Order-invariant first-order logic is an extension of first-order logic (FO) where formulae can make use of a linear order on the structures, under the proviso that they are order-invariant, i.e. that their truth value is the same for all linear orders. We continue the study of the two-variable fragment of order-invariant first-order logic initiated by Zeume and Harwath, and study its complexity and expressive power. We first establish coNExpTime-completeness for the problem of deciding if a given two-variable … Show more

“…Our tree constraint automata differ from Presburger Büchi tree automata defined in [41,12] for which, in the runs, arithmetical expressions are constraints between the numbers of children labelled by different locations. Herein, the string expressions state constraints between string values (possibly at different nodes).…”

First Steps Towards Taming Description Logics with Strings

“…Our tree constraint automata differ from Presburger Büchi tree automata defined in [41,12] for which, in the runs, arithmetical expressions are constraints between the numbers of children labelled by different locations. Herein, the string expressions state constraints between string values (possibly at different nodes).…”

First Steps Towards Taming Description Logics with Strings