An Efficient Algorithm for the Equation Tree Automaton via the $k$-C-Continuations
Formal Languages and Automata Theory
2014-01-24 v1
Abstract
Champarnaud and Ziadi, and Khorsi et al. show how to compute the equation automaton of word regular expression via the -C-Continuations. Kuske and Meinecke extend the computation of the equation automaton to a regular tree expression over a ranked alphabet and produce a time and space complexity algorithm, where is the maximal rank of a symbol occurring in and is the size of . In this paper, we give a full description of the algorithm based on the acyclic minimization of Revuz. Our algorithm, which is performed in an time and space complexity, where is the number of states of the produced automaton, is more efficient than the one obtained by Kuske and Meinecke.
Cite
@article{arxiv.1401.5951,
title = {An Efficient Algorithm for the Equation Tree Automaton via the $k$-C-Continuations},
author = {Ludovic Mignot and Nadia Ouali Sebti and Djelloul Ziadi},
journal= {arXiv preprint arXiv:1401.5951},
year = {2014}
}