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An Automata Model for Trees with Ordered Data Values

Speaker(s)
Tony Tan
Affiliation
University of Edinburgh
Date
May 23, 2012, 2:15 p.m.
Room
room 5870
Seminar
Seminar Automata Theory

Data trees are trees in which each node, besides carrying a label from a finite alphabet,
also carries a data value from an infinite domain.
They have been used as an abstraction model for reasoning tasks on XML and verification.
However, most existing approaches consider the case where only equality test can be performed on the data values.

In this paper we study data trees in which the data values come from a linearly ordered domain,
and in addition to equality test, we can test whether the data value in a node is greater than the one in another node.
We introduce an automata model for them which
we call ordered-data tree automata (ODTA), provide its logical characterisation,
and prove that its emptiness problem is decidable in 3-NEXPTIME.
We also show that the two-variable logic on unranked trees,
studied by Bojanczyk, Muscholl, Schwentick and Segoufin in 2009, corresponds precisely to
a special subclass of this automata model.

Then we define a slightly weaker version of ODTA, which we call weak ODTA,
and provide its logical characterisation.
The complexity of the emptiness problem drops to NP.
However, a number of existing formalisms and models studied in the literature
can be captured already by weak ODTA.
We also show that the definition of ODTA can be easily modified,
to the case where the data values come from a tree-like partially ordered domain,
such as strings.