AI Chat AI Image Generator AI Video Text to Speech

The Complexity of Learning Linear Temporal Formulas from Examples

02/01/2021

∙

by Nathanaël Fijalkow, et al.

∙

∙

In this paper we initiate the study of the computational complexity of learning linear temporal logic (LTL) formulas from examples. We construct approximation algorithms for fragments of LTL and prove hardness results; in particular we obtain tight bounds for approximation of the fragment containing only the next operator and conjunctions, and prove NP-completeness results for many fragments.

Nathanaël Fijalkow
23 publications
Guillaume Lagarde
3 publications

page 1

page 2

page 3

page 4

research

∙ 10/02/2019

Complete Intuitionistic Temporal Logics in Topological Dynamics

The language of linear temporal logic can be interpreted over the class ...

0 Joseph Boudou, et al. ∙

research

∙ 01/08/2019

Complexity Bounds for the Controllability of Temporal Networks with Conditions, Disjunctions, and Uncertainty

In temporal planning, many different temporal network formalisms are use...

0 Nikhil Bhargava, et al. ∙

research

∙ 11/27/2022

Complexity of Safety and coSafety Fragments of Linear Temporal Logic

Linear Temporal Logic (LTL) is the de-facto standard temporal logic for ...

0 Alessandro Artale, et al. ∙

research

∙ 12/11/2014

Logic of temporal attribute implications

We study logic for reasoning with if-then formulas describing dependenci...

0 Jan Triska, et al. ∙

research

∙ 07/06/2020

Separating Positive and Negative Data Examples by Concepts and Formulas: The Case of Restricted Signatures

We study the separation of positive and negative data examples in terms ...

0 Jean Christoph Jung, et al. ∙

research

∙ 09/28/2021

Computational Complexity of Deciding Provability in Linear Logic and its Fragments

Linear logic was conceived in 1987 by Girard and, in contrast to classic...

0 Florian Chudigiewitsch, et al. ∙

research

∙ 10/29/2021

Classifying Approximation Algorithms: Understanding the APX Complexity Class

We are interested in the intersection of approximation algorithms and co...

0 Arthur Lee, et al. ∙