LTLf+ and PPLTL+: Extending LTLf and PPLTL to Infinite Traces

Benjamin Aminof; Giuseppe De Giacomo; Sasha Rubin; Moshe Y. Vardi

2025 IJCAI IJCAI 2025

LTLf+ and PPLTL+: Extending LTLf and PPLTL to Infinite Traces

Abstract

We study two logics, LTLf+ and PPLTL+, to express properties of infinite traces, that are based on the linear-time temporal logics LTLf and PPLTL on finite traces. LTLf+/PPLTL+ use levels of Manna and Pnueli’s LTL safety-progress hierarchy, and thus have the same expressive power as LTL. However, they also retain a crucial characteristic of reactive synthesis for the base logics: the game arena for strategy extraction can be derived from deterministic finite automata (DFA). Consequently, these logics circumvent the notorious difficulties associated with determinizing infinite trace automata, typical of LTL synthesis. We present optimal DFA-based technique for solving reactive synthesis for LTLf+ and PPLTL+. Additionally, we adapt these algorithms to optimally solve satisfiability and model-checking for these two logics.

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Speech & Audio

Authors

Benjamin Aminof , Giuseppe De Giacomo , Sasha Rubin , Moshe Y. Vardi

Topics

Mathematics & Optimization > Mathematics > Discrete Mathematics

Keywords

temporal logic model checking automata theory reactive synthesis finite automaton

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