English

Componentwise Automata Learning for System Integration (Extended Version)

Formal Languages and Automata Theory 2025-08-07 v1

Abstract

Compositional automata learning is attracting attention as an analysis technique for complex black-box systems. It exploits a target system's internal compositional structure to reduce complexity. In this paper, we identify system integration -- the process of building a new system as a composite of potentially third-party and black-box components -- as a new application domain of compositional automata learning. Accordingly, we propose a new problem setting, where the learner has direct access to black-box components. This is in contrast with the usual problem settings of compositional learning, where the target is a legacy black-box system and queries can only be made to the whole system (but not to components). We call our problem componentwise automata learning for distinction. We identify a challenge there called component redundancies: some parts of components may not contribute to system-level behaviors, and learning them incurs unnecessary effort. We introduce a contextual componentwise learning algorithm that systematically removes such redundancies. We experimentally evaluate our proposal and show its practical relevance.

Keywords

Cite

@article{arxiv.2508.04458,
  title  = {Componentwise Automata Learning for System Integration (Extended Version)},
  author = {Hiroya Fujinami and Masaki Waga and Jie An and Kohei Suenaga and Nayuta Yanagisawa and Hiroki Iseri and Ichiro Hasuo},
  journal= {arXiv preprint arXiv:2508.04458},
  year   = {2025}
}
R2 v1 2026-07-01T04:37:26.083Z