English

Solving Equations on Discrete Dynamical Systems (Extended version)

Dynamical Systems 2019-11-26 v5

Abstract

Boolean automata networks, genetic regulation networks, and metabolic networks are just a few examples of biological modelling by discrete dynamical systems (DDS). A major issue in modelling is the verification of the model against the experimental data or inducing the model under uncertainties in the data. Equipping finite discrete dynamical systems with an algebraic structure of commutative semiring provides a suitable context for hypothesis verification on the dynamics of DDS. Indeed, hypothesis on the systems can be translated into polynomial equations over DDS. Solutions to these equations provide the validation to the initial hypothesis. Unfortunately, finding solutions to general equations over DDS is undecidable. In this article, we want to push the envelope further by proposing a practical approach for some decidable cases in a suitable configuration that we call the Hypothesis Checking. We demonstrate that for many decidable equations all boils down to a "simpler" equation. However, the problem is not to decide if the simple equation has a solution, but to enumerate all the solutions in order to verify the hypothesis on the real and undecidable systems. We evaluate experimentally our approach and show that it has good scalability properties.

Keywords

Cite

@article{arxiv.1904.13115,
  title  = {Solving Equations on Discrete Dynamical Systems (Extended version)},
  author = {Alberto Dennunzio and Enrico Formenti and Luciano Margara and Valentin Montmirail and Sara Riva},
  journal= {arXiv preprint arXiv:1904.13115},
  year   = {2019}
}

Comments

Extended version of CIBB 2019 paper

R2 v1 2026-06-23T08:53:07.819Z