Title :
Timed Pushdown Automata Revisited
Author :
Clemente, Lorenzo ; Lasota, Slawomir
Abstract :
This paper contains two results on timed extensions of pushdown automata (PDA). As our first result we prove that the model of dense-timed PDA of Abdulla et al. Collapses: it is expressively equivalent to dense-timed PDA with timeless stack. Motivated by this result, we advocate the framework of first-order definable PDA, a specialization of PDA in sets with atoms, as the right setting to define and investigate timed extensions of PDA. The general model obtained in this way is Turing complete. As our second result we prove NEXPTIME upper complexity bound for the non-emptiness problem for an expressive subclass. As a byproduct, we obtain a tight EXPTIME complexity bound for a more restrictive subclass of PDA with timeless stack, thus subsuming the complexity bound known for dense-timed PDA.
Keywords :
Turing machines; computational complexity; pushdown automata; NEXPTIME upper complexity bound; PDA; Turing complete; pushdown automata; timed extension; Atomic clocks; Automata; Complexity theory; Handheld computers; Orbits; Registers; orbit-finite; pushdown automata; sets with atoms; timed automata;
Conference_Titel :
Logic in Computer Science (LICS), 2015 30th Annual ACM/IEEE Symposium on
Conference_Location :
Kyoto
DOI :
10.1109/LICS.2015.73
