Generalizing Non-Punctuality for Timed Temporal Logic with Freeze Quantifiers
Abstract
Metric Temporal Logic (MTL) and Timed Propositional Temporal Logic (TPTL) are prominent real-time extensions of Linear Temporal Logic (LTL). In general, the satisfiability checking problem for these extensions is undecidable when both the future U and the past S modalities are used. In a classical result, the satisfiability checking for MITL[U,S], a non punctual fragment of MTL[U,S], is shown to be decidable with EXPSPACE complete complexity. Given that this notion of non punctuality does not recover decidability in the case of TPTL[U,S], we propose a generalization of non punctuality called \emph{non adjacency} for TPTL[U,S], and focus on its 1-variable fragment, 1-TPTL[U,S]. While non adjacent 1-TPTL[U,S] appears to be be a very small fragment, it is strictly more expressive than MITL. As our main result, we show that the satisfiability checking problem for non adjacent 1-TPTL[U,S] is decidable with EXPSPACE complete complexity.
Cite
@article{arxiv.2105.09534,
title = {Generalizing Non-Punctuality for Timed Temporal Logic with Freeze Quantifiers},
author = {Shankara Narayanan Krishna and Khushraj Madnani and Manuel Mazo and Paritosh K. Pandya},
journal= {arXiv preprint arXiv:2105.09534},
year = {2021}
}
Comments
Accepted for Publication in International Symposium on Formal Methods, FM 2021