Data-Driven Abstractions for Control Systems

At the intersection of dynamical systems, control theory, and formal methods lies the construction of symbolic abstractions: these typically represent simpler, finite-state models whose behaviour mimics the one of an underlying concrete system but are easier to analyse. Building an abstraction usually requires an accurate knowledge of the underlying model: this knowledge may be costly to gather, especially in real-life applications. We aim to bridge this gap by building abstractions based on sampling finite length trajectories. Adding the controller degrees of freedom, we newly define the notion of probabilistic alternating simulation, and provide probably approximately correct (PAC) guarantees that the constructed abstraction includes all behaviours of the concrete system and that it is suitable for control design, for arbitrarily long time horizons, leveraging the scenario theory. Our method is then tested on several numerical benchmarks.