English

Expressive Quantale-valued Logics for Coalgebras: an Adjunction-based Approach

Logic in Computer Science 2024-02-01 v2

Abstract

We address the task of deriving fixpoint equations from modal logics characterizing behavioural equivalences and metrics (summarized under the term conformances). We rely on earlier work that obtains Hennessy-Milner theorems as corollaries to a fixpoint preservation property along Galois connections between suitable lattices. We instantiate this to the setting of coalgebras, in which we spell out the compatibility property ensuring that we can derive a behaviour function whose greatest fixpoint coincides with the logical conformance. We then concentrate on the linear-time case, for which we study coalgebras based on the machine functor living in Eilenberg-Moore categories, a scenario for which we obtain a particularly simple logic and fixpoint equation. The theory is instantiated to concrete examples, both in the branching-time case (bisimilarity and behavioural metrics) and in the linear-time case (trace equivalences and trace distances).

Keywords

Cite

@article{arxiv.2310.05711,
  title  = {Expressive Quantale-valued Logics for Coalgebras: an Adjunction-based Approach},
  author = {Harsh Beohar and Sebastian Gurke and Barbara König and Karla Messing and Jonas Forster and Lutz Schröder and Paul Wild},
  journal= {arXiv preprint arXiv:2310.05711},
  year   = {2024}
}
R2 v1 2026-06-28T12:44:38.678Z